                      :-) GROMACS - gmx mdrun, 2019.6 (-:

                            GROMACS is written by:
     Emile Apol      Rossen Apostolov      Paul Bauer     Herman J.C. Berendsen
    Par Bjelkmar      Christian Blau   Viacheslav Bolnykh     Kevin Boyd    
 Aldert van Buuren   Rudi van Drunen     Anton Feenstra       Alan Gray     
  Gerrit Groenhof     Anca Hamuraru    Vincent Hindriksen  M. Eric Irrgang  
  Aleksei Iupinov   Christoph Junghans     Joe Jordan     Dimitrios Karkoulis
    Peter Kasson        Jiri Kraus      Carsten Kutzner      Per Larsson    
  Justin A. Lemkul    Viveca Lindahl    Magnus Lundborg     Erik Marklund   
    Pascal Merz     Pieter Meulenhoff    Teemu Murtola       Szilard Pall   
    Sander Pronk      Roland Schulz      Michael Shirts    Alexey Shvetsov  
   Alfons Sijbers     Peter Tieleman      Jon Vincent      Teemu Virolainen 
 Christian Wennberg    Maarten Wolf   
                           and the project leaders:
        Mark Abraham, Berk Hess, Erik Lindahl, and David van der Spoel

Copyright (c) 1991-2000, University of Groningen, The Netherlands.
Copyright (c) 2001-2018, The GROMACS development team at
Uppsala University, Stockholm University and
the Royal Institute of Technology, Sweden.
check out http://www.gromacs.org for more information.

GROMACS is free software; you can redistribute it and/or modify it
under the terms of the GNU Lesser General Public License
as published by the Free Software Foundation; either version 2.1
of the License, or (at your option) any later version.

GROMACS:      gmx mdrun, version 2019.6
Executable:   /usr/bin/gmx
Data prefix:  /usr
Working dir:  /mnt/5tlj-22-25/298k
Process ID:   167302
Command line:
  gmx mdrun -deffnm npt -v

GROMACS version:    2019.6
Precision:          single
Memory model:       64 bit
MPI library:        thread_mpi
OpenMP support:     enabled (GMX_OPENMP_MAX_THREADS = 64)
GPU support:        OpenCL
SIMD instructions:  SSE2
FFT library:        fftw-3.3.5-sse2-avx
RDTSCP usage:       disabled
TNG support:        enabled
Hwloc support:      hwloc-2.2.0
Tracing support:    disabled
C compiler:         /usr/bin/cc GNU 8.4.1
C compiler flags:    -msse2   -O2 -g -pipe -Wall -Werror=format-security -Wp,-D_FORTIFY_SOURCE=2 -Wp,-D_GLIBCXX_ASSERTIONS -fexceptions -fstack-protector-strong -grecord-gcc-switches -specs=/usr/lib/rpm/redhat/redhat-hardened-cc1 -specs=/usr/lib/rpm/redhat/redhat-annobin-cc1 -m64 -mtune=generic -fasynchronous-unwind-tables -fstack-clash-protection -fcf-protection  -DNDEBUG -funroll-all-loops -fexcess-precision=fast  
C++ compiler:       /usr/bin/c++ GNU 8.4.1
C++ compiler flags:  -msse2   -O2 -g -pipe -Wall -Werror=format-security -Wp,-D_FORTIFY_SOURCE=2 -Wp,-D_GLIBCXX_ASSERTIONS -fexceptions -fstack-protector-strong -grecord-gcc-switches -specs=/usr/lib/rpm/redhat/redhat-hardened-cc1 -specs=/usr/lib/rpm/redhat/redhat-annobin-cc1 -m64 -mtune=generic -fasynchronous-unwind-tables -fstack-clash-protection -fcf-protection -std=c++11   -DNDEBUG -funroll-all-loops -fexcess-precision=fast  
OpenCL include dir: /usr/include
OpenCL library:     /usr/lib64/libOpenCL.so
OpenCL version:     2.2

NOTE: Detection of GPUs failed. The API reported:
      No valid OpenCL driver found
      GROMACS cannot run tasks on a GPU.

Running on 1 node with total 128 cores, 256 logical cores, 0 compatible GPUs
Hardware detected:
  CPU info:
    Vendor: AMD
    Brand:  AMD EPYC 7J13 64-Core Processor                
    Family: 25   Model: 1   Stepping: 1
    Features: aes amd apic avx avx2 clfsh cmov cx8 cx16 f16c fma htt lahf misalignsse mmx msr nonstop_tsc pcid pclmuldq pdpe1gb popcnt pse rdrnd rdtscp sha sse2 sse3 sse4a sse4.1 sse4.2 ssse3 x2apic
  Hardware topology: Full, with devices
    Sockets, cores, and logical processors:
      Socket  0: [   0 128] [   1 129] [   2 130] [   3 131] [   4 132] [   5 133] [   6 134] [   7 135] [   8 136] [   9 137] [  10 138] [  11 139] [  12 140] [  13 141] [  14 142] [  15 143] [  16 144] [  17 145] [  18 146] [  19 147] [  20 148] [  21 149] [  22 150] [  23 151] [  24 152] [  25 153] [  26 154] [  27 155] [  28 156] [  29 157] [  30 158] [  31 159] [  32 160] [  33 161] [  34 162] [  35 163] [  36 164] [  37 165] [  38 166] [  39 167] [  40 168] [  41 169] [  42 170] [  43 171] [  44 172] [  45 173] [  46 174] [  47 175] [  48 176] [  49 177] [  50 178] [  51 179] [  52 180] [  53 181] [  54 182] [  55 183] [  56 184] [  57 185] [  58 186] [  59 187] [  60 188] [  61 189] [  62 190] [  63 191]
      Socket  1: [  64 192] [  65 193] [  66 194] [  67 195] [  68 196] [  69 197] [  70 198] [  71 199] [  72 200] [  73 201] [  74 202] [  75 203] [  76 204] [  77 205] [  78 206] [  79 207] [  80 208] [  81 209] [  82 210] [  83 211] [  84 212] [  85 213] [  86 214] [  87 215] [  88 216] [  89 217] [  90 218] [  91 219] [  92 220] [  93 221] [  94 222] [  95 223] [  96 224] [  97 225] [  98 226] [  99 227] [ 100 228] [ 101 229] [ 102 230] [ 103 231] [ 104 232] [ 105 233] [ 106 234] [ 107 235] [ 108 236] [ 109 237] [ 110 238] [ 111 239] [ 112 240] [ 113 241] [ 114 242] [ 115 243] [ 116 244] [ 117 245] [ 118 246] [ 119 247] [ 120 248] [ 121 249] [ 122 250] [ 123 251] [ 124 252] [ 125 253] [ 126 254] [ 127 255]
    Numa nodes:
      Node  0 (1068870516736 bytes mem):   0 128   1 129   2 130   3 131   4 132   5 133   6 134   7 135   8 136   9 137  10 138  11 139  12 140  13 141  14 142  15 143  16 144  17 145  18 146  19 147  20 148  21 149  22 150  23 151  24 152  25 153  26 154  27 155  28 156  29 157  30 158  31 159  32 160  33 161  34 162  35 163  36 164  37 165  38 166  39 167  40 168  41 169  42 170  43 171  44 172  45 173  46 174  47 175  48 176  49 177  50 178  51 179  52 180  53 181  54 182  55 183  56 184  57 185  58 186  59 187  60 188  61 189  62 190  63 191
      Node  1 (1082243698688 bytes mem):  64 192  65 193  66 194  67 195  68 196  69 197  70 198  71 199  72 200  73 201  74 202  75 203  76 204  77 205  78 206  79 207  80 208  81 209  82 210  83 211  84 212  85 213  86 214  87 215  88 216  89 217  90 218  91 219  92 220  93 221  94 222  95 223  96 224  97 225  98 226  99 227 100 228 101 229 102 230 103 231 104 232 105 233 106 234 107 235 108 236 109 237 110 238 111 239 112 240 113 241 114 242 115 243 116 244 117 245 118 246 119 247 120 248 121 249 122 250 123 251 124 252 125 253 126 254 127 255
      Latency:
               0     1
         0  1.00  3.20
         1  3.20  1.00
    Caches:
      L1: 32768 bytes, linesize 64 bytes, assoc. 8, shared 2 ways
      L2: 524288 bytes, linesize 64 bytes, assoc. 8, shared 2 ways
      L3: 33554432 bytes, linesize 64 bytes, assoc. 16, shared 16 ways
    PCI devices:
      0000:41:00.0  Id: 15b3:101d  Class: 0x0200  Numa: 0
      0000:41:00.1  Id: 15b3:101d  Class: 0x0200  Numa: 0
      0000:62:00.0  Id: 102b:0522  Class: 0x0300  Numa: 0

Highest SIMD level requested by all nodes in run: AVX2_256
SIMD instructions selected at compile time:       SSE2
This program was compiled for different hardware than you are running on,
which could influence performance.

The current CPU can measure timings more accurately than the code in
gmx mdrun was configured to use. This might affect your simulation
speed as accurate timings are needed for load-balancing.
Please consider rebuilding gmx mdrun with the GMX_USE_RDTSCP=ON CMake option.

++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
M. J. Abraham, T. Murtola, R. Schulz, S. Páll, J. C. Smith, B. Hess, E.
Lindahl
GROMACS: High performance molecular simulations through multi-level
parallelism from laptops to supercomputers
SoftwareX 1 (2015) pp. 19-25
-------- -------- --- Thank You --- -------- --------


++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
S. Páll, M. J. Abraham, C. Kutzner, B. Hess, E. Lindahl
Tackling Exascale Software Challenges in Molecular Dynamics Simulations with
GROMACS
In S. Markidis & E. Laure (Eds.), Solving Software Challenges for Exascale 8759 (2015) pp. 3-27
-------- -------- --- Thank You --- -------- --------


++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
S. Pronk, S. Páll, R. Schulz, P. Larsson, P. Bjelkmar, R. Apostolov, M. R.
Shirts, J. C. Smith, P. M. Kasson, D. van der Spoel, B. Hess, and E. Lindahl
GROMACS 4.5: a high-throughput and highly parallel open source molecular
simulation toolkit
Bioinformatics 29 (2013) pp. 845-54
-------- -------- --- Thank You --- -------- --------


++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
B. Hess and C. Kutzner and D. van der Spoel and E. Lindahl
GROMACS 4: Algorithms for highly efficient, load-balanced, and scalable
molecular simulation
J. Chem. Theory Comput. 4 (2008) pp. 435-447
-------- -------- --- Thank You --- -------- --------


++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
D. van der Spoel, E. Lindahl, B. Hess, G. Groenhof, A. E. Mark and H. J. C.
Berendsen
GROMACS: Fast, Flexible and Free
J. Comp. Chem. 26 (2005) pp. 1701-1719
-------- -------- --- Thank You --- -------- --------


++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
E. Lindahl and B. Hess and D. van der Spoel
GROMACS 3.0: A package for molecular simulation and trajectory analysis
J. Mol. Mod. 7 (2001) pp. 306-317
-------- -------- --- Thank You --- -------- --------


++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
H. J. C. Berendsen, D. van der Spoel and R. van Drunen
GROMACS: A message-passing parallel molecular dynamics implementation
Comp. Phys. Comm. 91 (1995) pp. 43-56
-------- -------- --- Thank You --- -------- --------


++++ PLEASE CITE THE DOI FOR THIS VERSION OF GROMACS ++++
https://doi.org/10.5281/zenodo.3685922
-------- -------- --- Thank You --- -------- --------

Input Parameters:
   integrator                     = md
   tinit                          = 0
   dt                             = 0.002
   nsteps                         = 50000
   init-step                      = 0
   simulation-part                = 1
   comm-mode                      = Linear
   nstcomm                        = 100
   bd-fric                        = 0
   ld-seed                        = -1267754330
   emtol                          = 10
   emstep                         = 0.01
   niter                          = 20
   fcstep                         = 0
   nstcgsteep                     = 1000
   nbfgscorr                      = 10
   rtpi                           = 0.05
   nstxout                        = 500
   nstvout                        = 500
   nstfout                        = 0
   nstlog                         = 500
   nstcalcenergy                  = 100
   nstenergy                      = 500
   nstxout-compressed             = 0
   compressed-x-precision         = 1000
   cutoff-scheme                  = Verlet
   nstlist                        = 10
   ns-type                        = Grid
   pbc                            = xyz
   periodic-molecules             = false
   verlet-buffer-tolerance        = 0.005
   rlist                          = 1
   coulombtype                    = PME
   coulomb-modifier               = Potential-shift
   rcoulomb-switch                = 0
   rcoulomb                       = 1
   epsilon-r                      = 1
   epsilon-rf                     = inf
   vdw-type                       = Cut-off
   vdw-modifier                   = Potential-shift
   rvdw-switch                    = 0
   rvdw                           = 1
   DispCorr                       = EnerPres
   table-extension                = 1
   fourierspacing                 = 0.16
   fourier-nx                     = 112
   fourier-ny                     = 112
   fourier-nz                     = 112
   pme-order                      = 4
   ewald-rtol                     = 1e-05
   ewald-rtol-lj                  = 0.001
   lj-pme-comb-rule               = Geometric
   ewald-geometry                 = 0
   epsilon-surface                = 0
   tcoupl                         = V-rescale
   nsttcouple                     = 10
   nh-chain-length                = 0
   print-nose-hoover-chain-variables = false
   pcoupl                         = Parrinello-Rahman
   pcoupltype                     = Isotropic
   nstpcouple                     = 10
   tau-p                          = 2
   compressibility (3x3):
      compressibility[    0]={ 4.50000e-05,  0.00000e+00,  0.00000e+00}
      compressibility[    1]={ 0.00000e+00,  4.50000e-05,  0.00000e+00}
      compressibility[    2]={ 0.00000e+00,  0.00000e+00,  4.50000e-05}
   ref-p (3x3):
      ref-p[    0]={ 1.00000e+00,  0.00000e+00,  0.00000e+00}
      ref-p[    1]={ 0.00000e+00,  1.00000e+00,  0.00000e+00}
      ref-p[    2]={ 0.00000e+00,  0.00000e+00,  1.00000e+00}
   refcoord-scaling               = COM
   posres-com (3):
      posres-com[0]= 4.99861e-01
      posres-com[1]= 5.01830e-01
      posres-com[2]= 5.00168e-01
   posres-comB (3):
      posres-comB[0]= 4.99861e-01
      posres-comB[1]= 5.01830e-01
      posres-comB[2]= 5.00168e-01
   QMMM                           = false
   QMconstraints                  = 0
   QMMMscheme                     = 0
   MMChargeScaleFactor            = 1
qm-opts:
   ngQM                           = 0
   constraint-algorithm           = Lincs
   continuation                   = true
   Shake-SOR                      = false
   shake-tol                      = 0.0001
   lincs-order                    = 4
   lincs-iter                     = 1
   lincs-warnangle                = 30
   nwall                          = 0
   wall-type                      = 9-3
   wall-r-linpot                  = -1
   wall-atomtype[0]               = -1
   wall-atomtype[1]               = -1
   wall-density[0]                = 0
   wall-density[1]                = 0
   wall-ewald-zfac                = 3
   pull                           = false
   awh                            = false
   rotation                       = false
   interactiveMD                  = false
   disre                          = No
   disre-weighting                = Conservative
   disre-mixed                    = false
   dr-fc                          = 1000
   dr-tau                         = 0
   nstdisreout                    = 100
   orire-fc                       = 0
   orire-tau                      = 0
   nstorireout                    = 100
   free-energy                    = no
   cos-acceleration               = 0
   deform (3x3):
      deform[    0]={ 0.00000e+00,  0.00000e+00,  0.00000e+00}
      deform[    1]={ 0.00000e+00,  0.00000e+00,  0.00000e+00}
      deform[    2]={ 0.00000e+00,  0.00000e+00,  0.00000e+00}
   simulated-tempering            = false
   swapcoords                     = no
   userint1                       = 0
   userint2                       = 0
   userint3                       = 0
   userint4                       = 0
   userreal1                      = 0
   userreal2                      = 0
   userreal3                      = 0
   userreal4                      = 0
   applied-forces:
     electric-field:
       x:
         E0                       = 0
         omega                    = 0
         t0                       = 0
         sigma                    = 0
       y:
         E0                       = 0
         omega                    = 0
         t0                       = 0
         sigma                    = 0
       z:
         E0                       = 0
         omega                    = 0
         t0                       = 0
         sigma                    = 0
grpopts:
   nrdf:     36672.9      700770
   ref-t:         298         298
   tau-t:         0.1         0.1
annealing:          No          No
annealing-npoints:           0           0
   acc:	           0           0           0
   nfreeze:           N           N           N
   energygrp-flags[  0]: 0

Changing nstlist from 10 to 50, rlist from 1 to 1.112


Initializing Domain Decomposition on 256 ranks
Dynamic load balancing: locked
Using update groups, nr 124239, average size 2.9 atoms, max. radius 0.139 nm
Minimum cell size due to atom displacement: 0.412 nm
Initial maximum distances in bonded interactions:
    two-body bonded interactions: 0.461 nm, LJ-14, atoms 8600 9532
  multi-body bonded interactions: 0.506 nm, CMAP Dih., atoms 1274 1286
Minimum cell size due to bonded interactions: 0.556 nm
Guess for relative PME load: 0.14
Will use 192 particle-particle and 64 PME only ranks
This is a guess, check the performance at the end of the log file
Using 64 separate PME ranks, as guessed by mdrun
Scaling the initial minimum size with 1/0.8 (option -dds) = 1.25
Optimizing the DD grid for 192 cells with a minimum initial size of 0.695 nm
The maximum allowed number of cells is: X 20 Y 20 Z 17
Domain decomposition grid 8 x 8 x 3, separate PME ranks 64
PME domain decomposition: 8 x 8 x 1
Interleaving PP and PME ranks
This rank does only particle-particle work.
Domain decomposition rank 0, coordinates 0 0 0

The initial number of communication pulses is: X 1 Y 1 Z 1
The initial domain decomposition cell size is: X 1.77 nm Y 1.77 nm Z 4.10 nm

The maximum allowed distance for atom groups involved in interactions is:
                 non-bonded interactions           1.390 nm
(the following are initial values, they could change due to box deformation)
            two-body bonded interactions  (-rdd)   1.390 nm
          multi-body bonded interactions  (-rdd)   1.390 nm

When dynamic load balancing gets turned on, these settings will change to:
The maximum number of communication pulses is: X 1 Y 1 Z 1
The minimum size for domain decomposition cells is 1.390 nm
The requested allowed shrink of DD cells (option -dds) is: 0.80
The allowed shrink of domain decomposition cells is: X 0.78 Y 0.78 Z 0.34
The maximum allowed distance for atom groups involved in interactions is:
                 non-bonded interactions           1.390 nm
            two-body bonded interactions  (-rdd)   1.390 nm
          multi-body bonded interactions  (-rdd)   1.390 nm

Using 256 MPI threads
Using 1 OpenMP thread per tMPI thread

Pinning threads with an auto-selected logical core stride of 1
System total charge: 0.000
Will do PME sum in reciprocal space for electrostatic interactions.

++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
U. Essmann, L. Perera, M. L. Berkowitz, T. Darden, H. Lee and L. G. Pedersen 
A smooth particle mesh Ewald method
J. Chem. Phys. 103 (1995) pp. 8577-8592
-------- -------- --- Thank You --- -------- --------

Using a Gaussian width (1/beta) of 0.320163 nm for Ewald
Potential shift: LJ r^-12: -1.000e+00 r^-6: -1.000e+00, Ewald -1.000e-05
Initialized non-bonded Ewald correction tables, spacing: 9.33e-04 size: 1073

Long Range LJ corr.: <C6> 3.0916e-04
Generated table with 1056 data points for Ewald.
Tabscale = 500 points/nm
Generated table with 1056 data points for LJ6.
Tabscale = 500 points/nm
Generated table with 1056 data points for LJ12.
Tabscale = 500 points/nm
Generated table with 1056 data points for 1-4 COUL.
Tabscale = 500 points/nm
Generated table with 1056 data points for 1-4 LJ6.
Tabscale = 500 points/nm
Generated table with 1056 data points for 1-4 LJ12.
Tabscale = 500 points/nm

Using SIMD 4x4 nonbonded short-range kernels

Using a dual 4x4 pair-list setup updated with dynamic pruning:
  outer list: updated every 50 steps, buffer 0.112 nm, rlist 1.112 nm
  inner list: updated every 12 steps, buffer 0.001 nm, rlist 1.001 nm
At tolerance 0.005 kJ/mol/ps per atom, equivalent classical 1x1 list would be:
  outer list: updated every 50 steps, buffer 0.241 nm, rlist 1.241 nm
  inner list: updated every 12 steps, buffer 0.046 nm, rlist 1.046 nm

Using Lorentz-Berthelot Lennard-Jones combination rule


Initializing LINear Constraint Solver

++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
B. Hess and H. Bekker and H. J. C. Berendsen and J. G. E. M. Fraaije
LINCS: A Linear Constraint Solver for molecular simulations
J. Comp. Chem. 18 (1997) pp. 1463-1472
-------- -------- --- Thank You --- -------- --------

The number of constraints is 7178

++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
S. Miyamoto and P. A. Kollman
SETTLE: An Analytical Version of the SHAKE and RATTLE Algorithms for Rigid
Water Models
J. Comp. Chem. 13 (1992) pp. 952-962
-------- -------- --- Thank You --- -------- --------


Linking all bonded interactions to atoms


Intra-simulation communication will occur every 10 steps.
Center of mass motion removal mode is Linear
We have the following groups for center of mass motion removal:
  0:  rest

++++ PLEASE READ AND CITE THE FOLLOWING REFERENCE ++++
G. Bussi, D. Donadio and M. Parrinello
Canonical sampling through velocity rescaling
J. Chem. Phys. 126 (2007) pp. 014101
-------- -------- --- Thank You --- -------- --------

There are: 364999 Atoms
Atom distribution over 192 domains: av 1901 stddev 42 min 1821 max 2089

Started mdrun on rank 0 Fri Oct 21 22:00:19 2022

           Step           Time
              0        0.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16019e+04    3.24452e+04    2.30936e+04    2.00167e+03   -5.05256e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03766e+04    2.07227e+05    8.34784e+05   -4.64482e+04   -6.04644e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15192e+04    9.38910e-01   -4.94489e+06    9.14699e+05   -4.03019e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02997e+06    2.98364e+02   -2.08157e+02    3.16883e+01    4.99578e-06


DD  step 49 load imb.: force 16.1%  pme mesh/force 1.639

step 150 Turning on dynamic load balancing, because the performance loss due to load imbalance is 10.6 %.

DD  step 499  vol min/aver 0.713  load imb.: force  5.8%  pme mesh/force 0.624
           Step           Time
            500        1.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.19038e+04    3.26873e+04    2.31693e+04    2.04261e+03   -5.20330e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03401e+04    2.06683e+05    8.39407e+05   -4.66062e+04   -6.05614e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.11055e+04    3.40963e+03   -4.94720e+06    9.15033e+05   -4.03217e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02983e+06    2.98472e+02   -2.09573e+02    3.39096e+01    4.97627e-06


DD  step 999  vol min/aver 0.666  load imb.: force  4.1%  pme mesh/force 0.592
           Step           Time
           1000        2.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.19020e+04    3.26660e+04    2.31149e+04    1.96023e+03   -5.20054e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03942e+04    2.06873e+05    8.33766e+05   -4.65702e+04   -6.04516e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14587e+04    3.63746e+03   -4.94116e+06    9.12947e+05   -4.02822e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02970e+06    2.97792e+02   -2.09249e+02   -3.88007e+01    4.98334e-06


DD  step 1499  vol min/aver 0.653  load imb.: force  4.3%  pme mesh/force 0.600
           Step           Time
           1500        3.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.14434e+04    3.23052e+04    2.30278e+04    1.92822e+03   -5.10636e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05365e+04    2.06943e+05    8.35214e+05   -4.64864e+04   -6.04599e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13772e+04    3.70853e+03   -4.94110e+06    9.11999e+05   -4.02910e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02964e+06    2.97483e+02   -2.08498e+02   -5.06195e+01    4.96840e-06


DD  step 1999  vol min/aver 0.661  load imb.: force  3.9%  pme mesh/force 0.589
           Step           Time
           2000        4.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.14018e+04    3.23509e+04    2.29514e+04    1.91460e+03   -5.21862e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04160e+04    2.06989e+05    8.40761e+05   -4.66137e+04   -6.06021e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.11807e+04    3.68240e+03   -4.95039e+06    9.10392e+05   -4.04000e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02950e+06    2.96959e+02   -2.09641e+02    4.49449e+00    4.98430e-06


DD  step 2499  vol min/aver 0.667  load imb.: force  3.3%  pme mesh/force 0.587
           Step           Time
           2500        5.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.12946e+04    3.26449e+04    2.31751e+04    1.93003e+03   -5.25997e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05288e+04    2.06994e+05    8.40064e+05   -4.65237e+04   -6.05644e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14479e+04    3.90787e+03   -4.94624e+06    9.15867e+05   -4.03037e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02942e+06    2.98745e+02   -2.08833e+02    3.32486e+01    4.98618e-06


DD  step 2999  vol min/aver 0.666  load imb.: force  2.7%  pme mesh/force 0.581
           Step           Time
           3000        6.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16588e+04    3.27462e+04    2.30756e+04    1.91870e+03   -5.08001e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.01661e+04    2.06624e+05    8.36056e+05   -4.65598e+04   -6.04963e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.12255e+04    3.86123e+03   -4.94394e+06    9.14648e+05   -4.02929e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02934e+06    2.98347e+02   -2.09157e+02   -5.59453e+00    5.00795e-06


DD  step 3499  vol min/aver 0.653  load imb.: force  3.8%  pme mesh/force 0.582
           Step           Time
           3500        7.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.12551e+04    3.30092e+04    2.31656e+04    2.07396e+03   -5.13549e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03709e+04    2.06576e+05    8.38247e+05   -4.65797e+04   -6.04970e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14635e+04    3.74480e+03   -4.94151e+06    9.15620e+05   -4.02589e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02921e+06    2.98664e+02   -2.09335e+02   -5.74025e+00    5.09457e-06


DD  step 3999  vol min/aver 0.633  load imb.: force  4.9%  pme mesh/force 0.609
           Step           Time
           4000        8.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15729e+04    3.22721e+04    2.30257e+04    1.98430e+03   -5.19536e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03125e+04    2.07481e+05    8.35136e+05   -4.65500e+04   -6.04731e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14018e+04    3.80795e+03   -4.94207e+06    9.16450e+05   -4.02562e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02920e+06    2.98935e+02   -2.09069e+02    3.22548e+00    4.97696e-06


DD  step 4499  vol min/aver 0.651  load imb.: force  2.8%  pme mesh/force 0.579
           Step           Time
           4500        9.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16635e+04    3.28452e+04    2.29736e+04    1.92509e+03   -5.31654e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03358e+04    2.06723e+05    8.31386e+05   -4.65132e+04   -6.03776e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15184e+04    3.68295e+03   -4.93654e+06    9.13873e+05   -4.02267e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02905e+06    2.98094e+02   -2.08739e+02   -7.93285e+01    4.91195e-06


DD  step 4999  vol min/aver 0.648  load imb.: force  3.4%  pme mesh/force 0.588
           Step           Time
           5000       10.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15719e+04    3.24030e+04    2.32275e+04    2.08555e+03   -5.21448e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03741e+04    2.06888e+05    8.32480e+05   -4.66402e+04   -6.04398e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14578e+04    3.69407e+03   -4.94165e+06    9.12975e+05   -4.02867e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02898e+06    2.97801e+02   -2.09878e+02   -7.80271e+01    4.86380e-06


DD  step 5499  vol min/aver 0.635  load imb.: force  3.7%  pme mesh/force 0.582
           Step           Time
           5500       11.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.11690e+04    3.26443e+04    2.30241e+04    2.00456e+03   -5.30399e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04845e+04    2.06952e+05    8.37377e+05   -4.65778e+04   -6.04748e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.16280e+04    3.68502e+03   -4.94039e+06    9.12202e+05   -4.02819e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02882e+06    2.97549e+02   -2.09318e+02    5.52480e+01    4.94907e-06


DD  step 5999  vol min/aver 0.635  load imb.: force  3.4%  pme mesh/force 0.593
           Step           Time
           6000       12.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15772e+04    3.23585e+04    2.31057e+04    1.93215e+03   -5.24448e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04560e+04    2.07132e+05    8.38017e+05   -4.66551e+04   -6.05222e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.16015e+04    3.88049e+03   -4.94406e+06    9.11701e+05   -4.03235e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02873e+06    2.97386e+02   -2.10012e+02   -5.80675e+01    4.95701e-06


DD  step 6499  vol min/aver 0.630  load imb.: force  3.6%  pme mesh/force 0.590
           Step           Time
           6500       13.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.19130e+04    3.27030e+04    2.29854e+04    1.84736e+03   -5.23178e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03180e+04    2.06480e+05    8.37520e+05   -4.65604e+04   -6.05067e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.12812e+04    3.75553e+03   -4.94366e+06    9.13500e+05   -4.03016e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02861e+06    2.97972e+02   -2.09162e+02    8.20204e+00    5.04297e-06


DD  step 6999  vol min/aver 0.656  load imb.: force  3.0%  pme mesh/force 0.581
           Step           Time
           7000       14.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16577e+04    3.25537e+04    2.31568e+04    2.02937e+03   -5.28284e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03375e+04    2.07110e+05    8.32127e+05   -4.65326e+04   -6.04373e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14563e+04    3.89584e+03   -4.94122e+06    9.12708e+05   -4.02852e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02857e+06    2.97714e+02   -2.08912e+02   -7.51255e+01    4.99301e-06


DD  step 7499  vol min/aver 0.642  load imb.: force  3.4%  pme mesh/force 0.585
           Step           Time
           7500       15.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16197e+04    3.22785e+04    2.31400e+04    1.92320e+03   -5.26857e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04739e+04    2.07017e+05    8.38576e+05   -4.65775e+04   -6.05395e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15691e+04    3.83359e+03   -4.94536e+06    9.15502e+05   -4.02986e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02849e+06    2.98625e+02   -2.09315e+02   -2.62687e+01    5.18209e-06


DD  step 7999  vol min/aver 0.631  load imb.: force  3.6%  pme mesh/force 0.588
           Step           Time
           8000       16.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16395e+04    3.23208e+04    2.31926e+04    1.94111e+03   -5.16406e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05222e+04    2.07568e+05    8.34381e+05   -4.65863e+04   -6.04848e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15508e+04    3.81762e+03   -4.94329e+06    9.15380e+05   -4.02792e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02839e+06    2.98585e+02   -2.09395e+02   -5.10899e+01    4.93850e-06


DD  step 8499  vol min/aver 0.632  load imb.: force  3.8%  pme mesh/force 0.585
           Step           Time
           8500       17.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16200e+04    3.24343e+04    2.30906e+04    1.94943e+03   -5.27680e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03261e+04    2.06181e+05    8.37353e+05   -4.65616e+04   -6.04745e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14384e+04    3.83665e+03   -4.94106e+06    9.12335e+05   -4.02872e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02832e+06    2.97592e+02   -2.09173e+02   -1.34432e+01    4.98108e-06


DD  step 8999  vol min/aver 0.654  load imb.: force  5.7%  pme mesh/force 0.590
           Step           Time
           9000       18.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.13951e+04    3.23265e+04    2.29755e+04    1.97543e+03   -5.30283e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04625e+04    2.06919e+05    8.40153e+05   -4.65613e+04   -6.05309e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14785e+04    3.98419e+03   -4.94328e+06    9.14297e+05   -4.02899e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02822e+06    2.98232e+02   -2.09170e+02    1.22447e+02    4.96654e-06


DD  step 9499  vol min/aver 0.658  load imb.: force  3.0%  pme mesh/force 0.578
           Step           Time
           9500       19.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.17160e+04    3.21886e+04    2.31590e+04    2.00669e+03   -5.18505e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05110e+04    2.06970e+05    8.40847e+05   -4.65961e+04   -6.05512e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13747e+04    3.88646e+03   -4.94424e+06    9.12777e+05   -4.03146e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02812e+06    2.97737e+02   -2.09482e+02    7.59231e+01    4.99194e-06


DD  step 9999  vol min/aver 0.654  load imb.: force  4.0%  pme mesh/force 0.587
           Step           Time
          10000       20.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.13884e+04    3.24011e+04    2.31384e+04    1.97978e+03   -5.24904e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04518e+04    2.07481e+05    8.37817e+05   -4.65885e+04   -6.05354e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13035e+04    3.76610e+03   -4.94565e+06    9.13609e+05   -4.03204e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02799e+06    2.98008e+02   -2.09414e+02    3.01952e+01    4.99156e-06


DD  step 10499  vol min/aver 0.653  load imb.: force  3.5%  pme mesh/force 0.591
           Step           Time
          10500       21.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.18232e+04    3.26257e+04    2.31549e+04    1.91062e+03   -5.16185e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03362e+04    2.07112e+05    8.33992e+05   -4.65181e+04   -6.04534e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13583e+04    3.92078e+03   -4.94079e+06    9.13934e+05   -4.02685e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02789e+06    2.98114e+02   -2.08782e+02   -5.83040e+01    4.98828e-06


DD  step 10999  vol min/aver 0.636  load imb.: force  3.4%  pme mesh/force 0.591
           Step           Time
          11000       22.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.17829e+04    3.22542e+04    2.31659e+04    2.03603e+03   -5.04485e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04884e+04    2.06965e+05    8.35756e+05   -4.65513e+04   -6.04791e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15015e+04    3.69397e+03   -4.94186e+06    9.14335e+05   -4.02753e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02779e+06    2.98245e+02   -2.09081e+02    3.39751e+01    5.08793e-06


DD  step 11499  vol min/aver 0.653  load imb.: force  3.6%  pme mesh/force 0.584
           Step           Time
          11500       23.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16926e+04    3.24992e+04    2.31725e+04    1.96433e+03   -5.23433e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05325e+04    2.07009e+05    8.35773e+05   -4.66420e+04   -6.04951e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14428e+04    3.91899e+03   -4.94338e+06    9.14546e+05   -4.02884e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02774e+06    2.98313e+02   -2.09895e+02    1.73148e+01    4.94253e-06


DD  step 11999  vol min/aver 0.644  load imb.: force  4.2%  pme mesh/force 0.586
           Step           Time
          12000       24.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.17644e+04    3.28298e+04    2.33112e+04    1.98626e+03   -5.18210e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03774e+04    2.06932e+05    8.31468e+05   -4.65557e+04   -6.03889e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13948e+04    3.91991e+03   -4.93664e+06    9.14775e+05   -4.02187e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02763e+06    2.98388e+02   -2.09120e+02   -1.03230e+02    4.94382e-06


DD  step 12499  vol min/aver 0.644  load imb.: force  3.7%  pme mesh/force 0.577
           Step           Time
          12500       25.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.14859e+04    3.23405e+04    2.29296e+04    1.88440e+03   -5.09212e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04692e+04    2.07154e+05    8.36986e+05   -4.65445e+04   -6.04864e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.16069e+04    3.97375e+03   -4.94144e+06    9.11593e+05   -4.02985e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02753e+06    2.97350e+02   -2.09019e+02    4.81502e+00    4.97614e-06


DD  step 12999  vol min/aver 0.637  load imb.: force  3.2%  pme mesh/force 0.590
           Step           Time
          13000       26.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16251e+04    3.27681e+04    2.29234e+04    1.93096e+03   -5.21245e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03595e+04    2.06527e+05    8.35696e+05   -4.65159e+04   -6.04408e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15449e+04    3.83964e+03   -4.93860e+06    9.10043e+05   -4.02855e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02735e+06    2.96845e+02   -2.08763e+02   -5.92330e+01    4.95502e-06


DD  step 13499  vol min/aver 0.640  load imb.: force  3.3%  pme mesh/force 0.593
           Step           Time
          13500       27.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15239e+04    3.25084e+04    2.34252e+04    1.92638e+03   -5.19629e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03668e+04    2.06336e+05    8.40820e+05   -4.66036e+04   -6.05414e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.16689e+04    3.81177e+03   -4.94355e+06    9.14880e+05   -4.02867e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02733e+06    2.98422e+02   -2.09550e+02    1.03992e+02    4.92706e-06


DD  step 13999  vol min/aver 0.633  load imb.: force  3.7%  pme mesh/force 0.581
           Step           Time
          14000       28.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16444e+04    3.25466e+04    2.30690e+04    1.83857e+03   -5.15948e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04481e+04    2.06485e+05    8.35055e+05   -4.66288e+04   -6.04667e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.12426e+04    4.02352e+03   -4.94210e+06    9.11621e+05   -4.03048e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02724e+06    2.97359e+02   -2.09776e+02    3.00274e+01    5.03206e-06


DD  step 14499  vol min/aver 0.636  load imb.: force  3.5%  pme mesh/force 0.578
           Step           Time
          14500       29.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16931e+04    3.26769e+04    2.30189e+04    1.96423e+03   -5.14299e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03041e+04    2.06729e+05    8.35698e+05   -4.66107e+04   -6.04551e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13030e+04    3.83366e+03   -4.94004e+06    9.11188e+05   -4.02886e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02709e+06    2.97218e+02   -2.09613e+02   -2.83782e+01    5.00962e-06


DD  step 14999  vol min/aver 0.656  load imb.: force  4.2%  pme mesh/force 0.588
           Step           Time
          15000       30.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16483e+04    3.25203e+04    2.29304e+04    1.90273e+03   -5.13378e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04654e+04    2.06432e+05    8.36465e+05   -4.66023e+04   -6.05153e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.12255e+04    3.89455e+03   -4.94578e+06    9.14462e+05   -4.03132e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02705e+06    2.98286e+02   -2.09538e+02    2.10385e+01    4.97856e-06


DD  step 15499  vol min/aver 0.646  load imb.: force  2.9%  pme mesh/force 0.583
           Step           Time
          15500       31.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16279e+04    3.25608e+04    2.30749e+04    1.97362e+03   -5.23899e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04939e+04    2.07431e+05    8.36737e+05   -4.65298e+04   -6.04940e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.17290e+04    3.84210e+03   -4.94169e+06    9.14046e+05   -4.02765e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02691e+06    2.98151e+02   -2.08888e+02   -4.31056e+01    5.05429e-06


DD  step 15999  vol min/aver 0.648  load imb.: force  4.2%  pme mesh/force 0.587
           Step           Time
          16000       32.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16995e+04    3.25230e+04    2.29553e+04    1.91980e+03   -5.25492e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03346e+04    2.06047e+05    8.41678e+05   -4.65845e+04   -6.05919e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14681e+04    3.79217e+03   -4.94861e+06    9.13520e+05   -4.03509e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02686e+06    2.97979e+02   -2.09378e+02   -4.62372e-01    4.90272e-06


DD  step 16499  vol min/aver 0.628  load imb.: force  2.9%  pme mesh/force 0.598
           Step           Time
          16500       33.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.17471e+04    3.19919e+04    2.30737e+04    1.97046e+03   -5.20701e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04167e+04    2.07274e+05    8.38395e+05   -4.65805e+04   -6.05388e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.17072e+04    3.98692e+03   -4.94510e+06    9.14832e+05   -4.03027e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02679e+06    2.98407e+02   -2.09343e+02    6.44814e+00    5.04925e-06


DD  step 16999  vol min/aver 0.647  load imb.: force  3.6%  pme mesh/force 0.591
           Step           Time
          17000       34.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.14378e+04    3.25373e+04    2.30502e+04    1.98402e+03   -5.25130e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04695e+04    2.06971e+05    8.41559e+05   -4.66504e+04   -6.05559e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.11575e+04    3.86754e+03   -4.94446e+06    9.15157e+05   -4.02930e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02669e+06    2.98513e+02   -2.09970e+02    9.00593e+01    4.97119e-06


DD  step 17499  vol min/aver 0.637  load imb.: force  3.0%  pme mesh/force 0.581
           Step           Time
          17500       35.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16373e+04    3.24922e+04    2.33234e+04    1.99927e+03   -5.27096e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03228e+04    2.06853e+05    8.35004e+05   -4.65783e+04   -6.04625e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15188e+04    4.01388e+03   -4.94094e+06    9.14659e+05   -4.02628e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02661e+06    2.98350e+02   -2.09322e+02   -2.23749e+01    4.98227e-06


DD  step 17999  vol min/aver 0.649  load imb.: force  3.2%  pme mesh/force 0.586
           Step           Time
          18000       36.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.17937e+04    3.22642e+04    2.29176e+04    1.98455e+03   -5.20820e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04374e+04    2.06908e+05    8.32886e+05   -4.65303e+04   -6.04406e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.17052e+04    3.90236e+03   -4.94100e+06    9.12516e+05   -4.02848e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02652e+06    2.97652e+02   -2.08892e+02   -5.20902e+01    5.04516e-06


DD  step 18499  vol min/aver 0.657  load imb.: force  4.7%  pme mesh/force 0.603
           Step           Time
          18500       37.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15516e+04    3.26297e+04    2.31834e+04    2.01524e+03   -5.27800e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04099e+04    2.07310e+05    8.38306e+05   -4.66262e+04   -6.05378e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14812e+04    3.90480e+03   -4.94489e+06    9.15112e+05   -4.02978e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02641e+06    2.98498e+02   -2.09753e+02    6.36432e+01    4.99198e-06


DD  step 18999  vol min/aver 0.660  load imb.: force  4.0%  pme mesh/force 0.589
           Step           Time
          19000       38.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.18494e+04    3.26564e+04    2.31317e+04    2.10331e+03   -5.22224e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04196e+04    2.06384e+05    8.34903e+05   -4.65226e+04   -6.04594e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.16220e+04    3.80051e+03   -4.94081e+06    9.14136e+05   -4.02668e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02628e+06    2.98180e+02   -2.08822e+02    6.43903e+00    4.92819e-06


DD  step 19499  vol min/aver 0.659  load imb.: force  3.7%  pme mesh/force 0.602
           Step           Time
          19500       39.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.12142e+04    3.27280e+04    2.30220e+04    2.09744e+03   -5.21772e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05249e+04    2.06851e+05    8.38266e+05   -4.65044e+04   -6.05188e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13860e+04    3.98884e+03   -4.94353e+06    9.09559e+05   -4.03397e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02614e+06    2.96687e+02   -2.08660e+02   -4.61362e+01    5.00471e-06


DD  step 19999  vol min/aver 0.674  load imb.: force  3.8%  pme mesh/force 0.584
           Step           Time
          20000       40.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15111e+04    3.27414e+04    2.31363e+04    1.92659e+03   -5.24869e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03801e+04    2.06625e+05    8.39286e+05   -4.65313e+04   -6.05395e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.11453e+04    3.90644e+03   -4.94507e+06    9.14963e+05   -4.03011e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02613e+06    2.98450e+02   -2.08901e+02   -1.51332e+01    4.97223e-06


DD  step 20499  vol min/aver 0.670  load imb.: force  3.5%  pme mesh/force 0.593
           Step           Time
          20500       41.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.13886e+04    3.27344e+04    2.30839e+04    1.96527e+03   -5.20923e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.02093e+04    2.06416e+05    8.37416e+05   -4.65750e+04   -6.05186e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15141e+04    3.84871e+03   -4.94507e+06    9.14219e+05   -4.03085e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02600e+06    2.98207e+02   -2.09293e+02   -2.79781e+01    4.95216e-06


DD  step 20999  vol min/aver 0.671  load imb.: force  4.5%  pme mesh/force 0.599
           Step           Time
          21000       42.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16206e+04    3.25263e+04    2.30838e+04    2.05360e+03   -5.27915e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03554e+04    2.06381e+05    8.38998e+05   -4.65722e+04   -6.05520e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.11931e+04    3.76646e+03   -4.94707e+06    9.10439e+05   -4.03664e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02589e+06    2.96974e+02   -2.09268e+02   -6.50444e+01    4.94244e-06


DD  step 21499  vol min/aver 0.654  load imb.: force  4.6%  pme mesh/force 0.616
           Step           Time
          21500       43.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.18859e+04    3.21473e+04    2.29564e+04    1.94943e+03   -5.25962e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03540e+04    2.07070e+05    8.39276e+05   -4.65668e+04   -6.05498e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14575e+04    3.73220e+03   -4.94598e+06    9.12806e+05   -4.03318e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02583e+06    2.97746e+02   -2.09219e+02    2.41756e+01    4.96770e-06


DD  step 21999  vol min/aver 0.664  load imb.: force  2.8%  pme mesh/force 0.589
           Step           Time
          22000       44.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.13359e+04    3.27526e+04    2.33270e+04    1.96269e+03   -5.35425e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05160e+04    2.06382e+05    8.40562e+05   -4.65204e+04   -6.05612e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.12814e+04    3.89977e+03   -4.94597e+06    9.14896e+05   -4.03108e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02576e+06    2.98428e+02   -2.08803e+02    5.89733e+01    4.93966e-06


DD  step 22499  vol min/aver 0.654  load imb.: force  2.8%  pme mesh/force 0.583
           Step           Time
          22500       45.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15130e+04    3.26112e+04    2.30558e+04    1.95559e+03   -5.30984e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03558e+04    2.06617e+05    8.40554e+05   -4.65846e+04   -6.05736e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13595e+04    3.78357e+03   -4.94744e+06    9.12920e+05   -4.03452e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02562e+06    2.97783e+02   -2.09379e+02    6.03072e+01    4.87903e-06


DD  step 22999  vol min/aver 0.646  load imb.: force  3.2%  pme mesh/force 0.572
           Step           Time
          23000       46.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.14925e+04    3.29605e+04    2.32397e+04    2.13480e+03   -5.30831e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.03355e+04    2.07104e+05    8.36591e+05   -4.66006e+04   -6.04903e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14598e+04    3.76559e+03   -4.94186e+06    9.15047e+05   -4.02681e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02552e+06    2.98477e+02   -2.09522e+02    3.79062e+01    4.98472e-06


DD  step 23499  vol min/aver 0.652  load imb.: force  2.9%  pme mesh/force 0.586
           Step           Time
          23500       47.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15419e+04    3.23871e+04    2.31254e+04    1.97245e+03   -5.29889e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04274e+04    2.06674e+05    8.36450e+05   -4.65399e+04   -6.04922e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15635e+04    3.91037e+03   -4.94300e+06    9.11478e+05   -4.03153e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02542e+06    2.97313e+02   -2.08978e+02   -8.27721e+00    4.86013e-06


DD  step 23999  vol min/aver 0.632  load imb.: force  3.3%  pme mesh/force 0.578
           Step           Time
          24000       48.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.17114e+04    3.24098e+04    2.28706e+04    1.99950e+03   -5.13346e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04056e+04    2.07025e+05    8.34287e+05   -4.65494e+04   -6.04832e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14144e+04    3.94270e+03   -4.94394e+06    9.15121e+05   -4.02882e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02533e+06    2.98501e+02   -2.09063e+02   -6.60351e+01    5.03331e-06


DD  step 24499  vol min/aver 0.652  load imb.: force  3.5%  pme mesh/force 0.577
           Step           Time
          24500       49.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.14199e+04    3.25274e+04    2.30684e+04    1.97983e+03   -5.25541e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.06612e+04    2.07113e+05    8.37211e+05   -4.65659e+04   -6.04850e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13060e+04    3.86187e+03   -4.94117e+06    9.12790e+05   -4.02838e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02518e+06    2.97741e+02   -2.09212e+02    7.30470e+01    4.99766e-06


DD  step 24999  vol min/aver 0.656  load imb.: force  3.2%  pme mesh/force 0.587
           Step           Time
          25000       50.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.14611e+04    3.24335e+04    2.30428e+04    1.97407e+03   -5.20029e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.02817e+04    2.06549e+05    8.33922e+05   -4.65458e+04   -6.04834e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.14172e+04    3.83771e+03   -4.94517e+06    9.12012e+05   -4.03316e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02518e+06    2.97487e+02   -2.09031e+02   -1.07769e+02    4.96627e-06


DD  step 25499  vol min/aver 0.648  load imb.: force  3.5%  pme mesh/force 0.585
           Step           Time
          25500       51.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.13557e+04    3.25178e+04    2.30860e+04    2.08645e+03   -5.20965e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04722e+04    2.06941e+05    8.39086e+05   -4.65132e+04   -6.04951e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.16858e+04    3.93251e+03   -4.94007e+06    9.13908e+05   -4.02617e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02508e+06    2.98105e+02   -2.08739e+02    7.33804e+01    4.93275e-06


DD  step 25999  vol min/aver 0.649  load imb.: force  2.4%  pme mesh/force 0.588
           Step           Time
          26000       52.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15674e+04    3.24345e+04    2.32173e+04    1.90104e+03   -5.20957e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.02648e+04    2.07174e+05    8.35266e+05   -4.66017e+04   -6.04837e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.15969e+04    3.84080e+03   -4.94292e+06    9.10751e+05   -4.03216e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02496e+06    2.97076e+02   -2.09532e+02   -1.12066e+02    4.99805e-06


DD  step 26499  vol min/aver 0.657  load imb.: force  3.5%  pme mesh/force 0.589
           Step           Time
          26500       53.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15122e+04    3.27884e+04    2.32525e+04    2.00195e+03   -5.36024e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05019e+04    2.07424e+05    8.34521e+05   -4.65742e+04   -6.04579e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.13935e+04    4.00466e+03   -4.94032e+06    9.15556e+05   -4.02476e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02488e+06    2.98643e+02   -2.09286e+02    3.41946e+01    5.10962e-06


DD  step 26999  vol min/aver 0.651  load imb.: force  3.7%  pme mesh/force 0.603
           Step           Time
          27000       54.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16678e+04    3.24972e+04    2.30193e+04    2.00779e+03   -5.23105e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04664e+04    2.06620e+05    8.36182e+05   -4.66120e+04   -6.04685e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.11711e+04    3.81521e+03   -4.94125e+06    9.12772e+05   -4.02848e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02477e+06    2.97735e+02   -2.09625e+02   -4.06209e+00    5.08195e-06


DD  step 27499  vol min/aver 0.659  load imb.: force  3.1%  pme mesh/force 0.589
           Step           Time
          27500       55.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.15781e+04    3.25384e+04    2.31613e+04    1.83553e+03   -5.21582e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.05738e+04    2.06784e+05    8.34980e+05   -4.65758e+04   -6.04870e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.12245e+04    3.92692e+03   -4.94389e+06    9.14298e+05   -4.02959e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02467e+06    2.98233e+02   -2.09300e+02    6.50803e-01    4.90055e-06


DD  step 27999  vol min/aver 0.640  load imb.: force  3.7%  pme mesh/force 0.587
           Step           Time
          28000       56.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.13105e+04    3.24469e+04    2.33004e+04    2.05472e+03   -5.18716e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1.04011e+04    2.07380e+05    8.38555e+05   -4.66746e+04   -6.05863e+06
   Coul. recip. Position Rest.      Potential    Kinetic En.   Total Energy
    3.11676e+04    3.88880e+03   -4.94999e+06    9.14186e+05   -4.03580e+06
  Conserved En.    Temperature Pres. DC (bar) Pressure (bar)   Constr. rmsd
   -4.02461e+06    2.98196e+02   -2.10188e+02    6.25758e+00    4.96615e-06


DD  step 28499  vol min/aver 0.643  load imb.: force  3.3%  pme mesh/force 0.585
           Step           Time
          28500       57.00000

   Energies (kJ/mol)
           Bond            U-B    Proper Dih.  Improper Dih.      CMAP Dih.
    1.16924e+04    3.20893e+04    2.30297e+04    1.94579e+03   -5.29648e+03
          LJ-14     Coulomb-14        LJ (SR)  Disper. corr.   Coulomb (SR)
    1K�GHu8��:�JWL.�p�T��b���J����S� \w��<���8����z���:�-��a�����b����< ��t����⨰T�!f��&���a�k�c�����p�7h)k�\T{\�R��R��༒�Q"��cD��A���������f�j�Q������H�L[���巽���P) �\�`D]��
�{�q�+`r�d����4��?��%2�4B@,�a���y��pW/�����-R�)�i|[��a�	�5=A�߃[Q
�)G��#P������w����;�J�=��7W��E��^��0D���]5+P뢀cz����R�Rs�9�bwcu;����m�G#L_r�/��l���?�wF��Qm�Xt �g��0rU$�pvpj�����~i��غ�ϵ F��a:�D��%���(��q��mR"��k�Y�[���So��9�%�9��Y�^�m�hW�㬐�1�:��0�o�(|'�B�&<
ol�6+�}�9�N�В��~wtl��%2�$�.�D��|��䖈�b��r���p�XP�w)�P5��|�Z����$����K� V��,��j�j��#��#�1�P�	�n]���urDE�b�߶��b��`5���Ä�r;�{YɌk7��:�[^~Ѵf'#�%Ks�o��Z�v�K����bC���^Q��4�Fx�P4G�`ʘ����tL����'��������w�=Y�0���î�U���GWp:�1k&wT�#7�W����|�ܲ��N94�=���>:�EM6�Qf�c*
뒀�|��q�+��8z���I�62QE&�Q�+��&���,�HV��P�GՇ���23��'�~#��-ͤh����G�0Fg(r�A�� ��ԆS���D�7xa�H�l�h���:��d)�s�%̵�H�в/~���2 g��U�/p���G�t<\�SG^O�a�x-kf�q}��{N|�&9��d��Է5�z�����F��$
�+�LE��%�����>�M�|㼗�H11�iH��F���G.���S@h�+֜x% ܇
/�C3���b#\�/2M�C������C��n�� D��
���Kk�T���[���`����J�>����ƭC��v!o%I�����e�Q�L�U�D�2`Gn>�M���a7�(	<�a�*9,����$H�!Z<�T՘,���WP�|��_H����]C��IgLO�,Ӑ�G��� �d�ֶ"_���!'0�S� �*^�^Lw��<j���
�,�e�=P\�V��2��7��T��`�#$�ZP���$V�i�,h,e��x��z���cI$
j`�[�Z<C��J!�)�SFYJ8����a�&�����ŵ���u�������*�q�e*G���iI��{��*_VZ8��i�V���NX�U<*B�o_�5k��A��M��0M�{�'����wC�v���^�l��W�:]�����:+8�S=;��K�����%{�eYSK�n]G�W�tF�e�{�q�sF�L��� ����N$mɉ������I�.��?�ଃM�Q�x��_ݱ�ѯ/�Q$�
K����,�X���N$��N�A��}�y�-��RH��H���굼Ijn����-=~�gX��[V�S4�	�%5��7�ؕ���2N����h���9�W?.�W؇C3qV�t
�u��<��&���`>��l���G�i��3�8�H��?p�e���A\���!�P	��~�f�=��6���v~*-��^w���o�H�b&��؏G�%*ߐ+kQA������ԁγ�*a����o�lbc�����K�x��1��͂��*tis|wƒ����u*.�g�!��M��6AAK����~�?�1�-�NFi�e���	����K�q�Y �(�EnW�͍�%5kVV��������ݞKI�h�E��>��V���kE���t��AB���{�$�`L���_��#�� �<u8�b�cPӟQ�1N�aǀ8���ey�3IJ��n�O�m����i���������+Y[o�ܿAE�#(/
�)."��Vc+�F`�;R����K���?��kHJ�HU�p�A<���L�%�mk��7���0���-���T+��7��u�c�����X��,yE�(����J���#JY����|d��7w3�7�wKؾ�"kӆ;_1y"&�^�rqx���У�;���}|�Rb-^��[�L�����o���&�-ȿg�?�L���{�G�"���g�RQeٲ'�r�Ȗ^%�L		.�^�j��,0pMg��SE���nI�mR��#�����4����(Y��%XH���U����s�� �ݩ�~�Z2�i%����1���59U�6[f�pZB��Lj����h��i�g,�|<7&�䌳՝�j�ey�yn���<e�EeB"���vYG�h��r!��2Y54�y*�C'��uDy���Լm��{/��A�Q��h�X�#i6��l�O�����n_�HY�h��|y��V��uL���/�(�)n�a�]�m~�$OrY̒;&���wa%B������C������AѢF <���!�- @`����!h����ԟ�V]�YV�I1i� �~�8���E:,"��bO>b�y�����*@�xh��,�Ճ6Y��%��}Sʕ��T?�����^
��+8�Q�w<���n�"�a�W��V× a�Ķ !s&\8�L�&Tl��ȟ��5T�(�F=#:^��-d�ʙ���b���T,�yh�Wp��쭦E[8��y�A݋G�D9�K�_m�P}�&���W%$�:�U2���E��#�$3´�D�Z#z�\�&֡S�g� 8!Pb�;f�����Ċ�r 4�Z�|�L6����<��E�I�͟����%pi�
9�)�{E�fv�J-�UО9#*�!�����a�3H"	����hoQVиm��a��႑�|��<�Å�-H��)��cJ���]�s�݉�UA	���n<3:��*�<B`h�[cؚ���x�LO���ݼE�t
j7}�t�d��E#Cn~e��Ϛ��Bo����� /�?%�3ғ�h�Y.P��í��l��r�#g��m#�,Z�p쨴*�A�!�d^�V��#δ�~fD�!Z�֭�o�s��ێ�5��t�&��T#�Yy��H("(i/<�#"�_jI�����ؤ�0a�Ʀ�v�$++�q`��x���tw��WJ�󵿵�P|VL	��t
DܿD���D���A�4�[�Kw�[pw.�)��i�A�e��ɬ�����V���}E�����m�J�	M��+n<:I��%��2�r%�}�<*P�I��HB�ۡ�LW���G��F��%�'�iVGB��>�Rgۀ���8�D�)��c���AM������;��Q*Yc�cw��}�!��gr�e�tt3bjR����rg܍fo�]��zf*6��`�-ۇ�P׼ze�Wܕ�J1D�Iϟg�>)qCs�Ֆ�xh��a�e���[�~�$\k���Nȧ0Ԝ�N���F�F)>�Td.%�4o�	�=�#C�J�a�^�1�'���$W5m�V��K��⃿�_|�Kx����&���G��<�Ȁ��t��G����
�S]�Si3�@�6�w��5��l�{�u��d�R��"rݤ5q��Fc�7߃?�����r��f'"�\�X�dq`���o�3Wܹ�g�vx��̀g%��Y�-��������[�7p��AD*�a׹���6��>����k�k�����x��$����%�h/������U�lS���p��H�4v"�Ke�T�0�B�kȔ�[�l�y�p�aX�*��h��2�|��X&C�,A���n����~?IS('.6R`�ϙ�:����CI�N�J�X	��-�U��y.n¶&:��;?U�����	F�
2	����*����%�S]s\v� ��[��%����ɠ�Gj��X�g�AN���ˈ1�>�c�(RX��p�3v�DZ��j|?0-g=��T�,W�C�zmr^��<Y�K<qU�wU���!5/܎ۘIM���3�Ǯ��j�G�.Y�����ɦF)���y�	����I�:v(e�96��e<R�2)m.�Z�JR1nBV��xF5�\�1�;��|��) ��_.��!��k�)J.Z]������4��g��|K�Ё�[��=v���fn��QTUy�f6i"��A e���0��Cl���.[na�p�C�ߝ_�q

��#"�n����ED�����V���d����;��]�O(I�ˡ��u`Zq��� m��)�����D�p�����v�hQq�&�e?������42�&�^�V���z����E����"��V5�=pf�S��&dE֛��q{V����-���1�b��!��#���K�O����Կ�5>�!�B鳨t��s�:�ګ��e�:xJ㨜���G�u��q�H��~r�Hl�;'�N��z��q�R���U����w��E��R��c�� ����ZNm�'Y-r�y��ɗ��� ��G�	�PWhs�ܤa5w7�� k�<�l<����g���)|���Lt<3&g�y�-��-����sR�iNO��q>R���� �)|�͔ڝ��A{i��C��\�K��3���h�vO��o���G4����+�c�qk���&�>�X��E,]X6�� �:&���p1�^sa1c^�Dƛ�a�c�l���j�Pأ���^!2�0�uP�kaaA[*�����/#��;�+�OC13�-.���1QY����m�(ù�KA2A6��1��[�d<֗�3ǜb�����Kࣔ��dZB܌��7:���Ҕ.�����~gӾ�[?��,������؂�y�d�uـ�d״9� >X.PA݃�k��L��;�X��y�K!�I����H$R�L
���a<)���5%�t0$�)�.l�Ԃ3� �d_3d�⹲'��e�)϶��:sĜ�Z��7+K3�%�R�Mz�6#@ğ���E�+������a�4�/3�m&Z�N���M�[���b��*��r$�Q��эE:�X����"��<��A����#H�B��b����+R�<��l.Ŭ��q�u=2�^ʢ����=kn*N	 �WHzX8�a�rCXQ�����{�X�S�}��dI@����mHӵ��	J��m�T¸͔I��P���PF��xl��	��k�a)��Y�.J��a��qZ԰�2�9��|��/��1�EȂ�CiK������V���3��=��n���^�	t `�w�R$����晦L�s�ZK( �C���-V���k0��Gݛi���T���;���}��+DW�V�
��fˍ]��;�9|�D�0�ҧ�^Da���$-�#�C��
��w����[/9�o�]�
�����yg��iD�&���l&����0�iV��Y�,�4�@�M��V��ٷ�MJ{�P�v��!&6v>�va��,B�[���	Pr�G����M��ꦛ�վ��4Mz�|���)� u�= 9�͢�29�>��O"6�9�$.Y�^�	f=JӺ�P��bk�T���lY��	ap,�J (&6A.�
Tռ���P��SR�#�@&�65�緣�Dَ����F�	c<�x��M��0w�����7�H�%��WIe�i^�e^̭�c�m. DR0��^{�Į��&d�r�k��!e��J5��ђy·�bf�>��!���(@Mu���le�na��a�h�M�$������;B�h��}���G�v/��.�$.�Aɜ�I�d���p���x��+��	T�-��g� |��;��`A��ODW�
���S��I���R���DR3�9�]F:T��3�jz7cr��H��\͇*o��[b�L��Pj�F�I���fKͬ�~g�͗���|sO����&�M��]�-\F35[�_ �Zx@�_���Q�@;3��ۨf� &���2��=�%��$d��=n�q�� N��c=h���Sy��O���&
d�=y֦��W���5iw��b�d�mD�aE)V[������ۅo�5t9��=�Ȱh
���B�7u�C�
k�i�:�gI�b���w��n��c����|Q���{c�"W��_d�$^^�܈��؞w.�x�HT4E�X�Es���<����wur�O�l���o�Aױ���c "r|�0��4�D�xz�ZO�������2\�k�|�S���H���|ھ�1��IAU���4��؄Q�v�;#g���A�u=�N	h�4�!6s��y2͹	��:�2=3Z�Gt���G�B�դ]�BWy��_�,0����:)�%�7^�?���; �Ms
���у*���s7-�?p�.�֤mI��`������7�&KLZK�T~��7���x8Bx�]�#XY�z����������X���=�i�x�J����MM6r6���7�-�}�&����x*�o����(�]?���5l`PJ|vkM&֯$�d'Y�5M-����$-���'Y�z�zUS��ӎ1^0%�ԅ�=:�U��)Vm�!�ݒt�-t��͔��G6K��N� ����Z�x�`<|�� q���y�TnG����/s׺'�:����١є�B�w���d��i&���� �Lo�Y&U�o}Z��+b�'�S�z�m�Yk+��.����NMG�Y]C����M
�����|���]�$����<��}��.�m	�a Z�gW��^B���YI��NJD��x���o�d:�|���x���+���2��&?;9����G��7��!�)��J���c�W�5#|����|LZm��d]|lYX<���퍲�D`�0���f��8���%�;f�����7I.!�a4ܩ�x���&�|�ͼ��B~�E�楀�ݛɃ�?}�Mz�&�k3˚�xG�����Y^Pף���K'��u3|�h7}:a�]�rs�=7��]��S�P�Q�u��f\�\#��A�����d��(�8$T����^[<�>�7�nT~2=WY|�i0����S���b�$�,|�Uʩ�Ca��\�Ͱ��� D��lwsa�}�31)/�y����!F"ǿ����������zXJk��X��<��_��>u�Ԉ��֊.�w�+���`UBRHbI ���	��N� ثT�_������_Z�S��� _g�������٨�����\b��p��\�]���	�PO+�h&L��'l����.�j��D)C�d(����3E��1�!��ڻ|���+4�g��/��@�5��;��)Z�Ew/d�,�����|��(:,19辌�Hx?<��Tؽ	���F�1�ݫ�H��{��Ø�0��)�A�D�'d[�I�w���Q��@��^)�3�����=��s�3Ħ+!�*g�t݋���1�W9� �`��U����yn�3��ԗ�|��@��óu_��K�xJ��u����k|5ط�Q�R���]��c��(O9ІdT�0 ����0>��n���3b���b08��)�Rv�� ��L���4X�$�MQ~�DU��¤�����&ު��*@��D$���iD�sڱ��y���� �ȑ�A����p\.H�0]�#��8��I��4�'�֊Qo�Q�w��7b��=-o���`h@P��� I	=�����Ǉ�[�O����@pe���U�7±U�0ȓ�����K�� �L��<�$f������'����~�	��/h������ϓ���~w��S�}�`��S��NX�������vc�K4������,�`?�P0+��e��n�@�Cc;H�W�.����>r�Yʆ��Y����YK��Q��AE ��}��rK�}/�;L��,8M#@��RxuTEȁ�+*͟���c�jd��.�0�@X8���T�����J��sy�ɹiy����F�:��u`Zʫ�~�M��85_���L�0�杒����JP'���`�K3��n�3;�x��s�}O��-6K��F��ߟ��8%$�	sj�
$�h'o�����I��Q�5��_aW�4�F��;�x�>��s���s��(lRJw��u����"xFdDJ�~��	�/�s���)����oPd/��_N�C4DQϐYAJK��4ĝ��/�!b}��Z��O!��U��"�������6����t�R����"bt�.�ǜ,4�ƙ	��MMiw�O2렎)KQ���X�I��r�:n��-��엹��v��m�z�`��.�*�Z�{���,�"�b��)�6b�1�C��/s�2`e��2_�{�;8fU4n
δG�ʮ%����Z\�:eQ'X�l6�X��E�<�����{�!�҆��U 1�Գ<"�e�c�rTY�,-�p�KG��'��Hz	��v.pW��Qs\sd�%�N�bp�A5u�Ν�N��?3rR�n/+RN�@�%9�����i��'��)��V��o�Q������>�`�xV˟f�ub���I9�#�{D�����?��!Ŧ�
E
ɖo������go�GI������֖���mX:Jg�\�|�c���sC���{�3��!�z�u�3�đ���M}��L�����Ć=�i�x7,tGŘ^��Xi����%�E{V��%�m�A���r081�g�#}9����9��'6�=B�)�x��.I_-i3�tf�����]���fO%Ш������$":�唩��.`d۔[���\aG�!�^9s������6���67ɨ���sދ_m�-�>�^��Cͤ"��� ��Q�T7��/��P�a4젡4��:pj?�?Ԭq�
�ZZh	�i�Ժ�p�������Ó��Q��4�e϶.]���f5�锚i\�⁸���=JsKA�.\�����Le��7A�IW5�s_��:�R���aº�u����\&*��r��r�Z @���_ :��?�LO}9So_(B��3
�0�i >,	T(�㢧CF�q#��F������t���/�֋��e�9����"
04!n����??��y�I2�4�?�@�̟�o������ǍJ���!��C�`���%0o�H��n�N
���B�B&���$8cY��DQ�YUh���oW�E��O9�ʃ?��K�� ������z����Wde���;�fp�R���)#�k��5��d�>�^U��Ī�����5n2Q��vt�ac��D
���LO���H�5a��[/*u�_�s��&�I�ɩ�r%�p?DL���n	��'(N���
����C�\�B.���bi��.f�L�0���黲aޞ���l��`3����&��v��o=HO��� �U��}z�c�.ɂb'Z7��oL�i����Ag�}ý��T��Y���	���Q��\K�} M%�������1ȯ2�G�EgB�ޒ�!����]*�PW�źj�q9�+�����ۀ#؞B�,�?F��R>�Զ�ۿL����A�lb�MZ�,�����U(��cA��1�7̦�`o��*��#��ٻ"P�7���/�����o��>0�pkn�[-e���s���)n/ilL��}`e�mnW��\�УM�4�����}�;��z���m&���x���Kk|Y2w��nL��P���y���������7\��d��Y6���B�4�0ґ��TF��^�>���Kb��xK޸Bs�� �q.��[�ԝ����;t�kq�%T������'k�N��/|�y�tZ}g٢�6���C�A>�e H�!�\�V����Er/-��j��rυ���/)5�*��A-��dޱ����&˗c�L�
$	��k��m�u��:R�lQ�����#Mՙ���y,SK����7��������H��B�;h�>��B*�h�d�Y-�Ho)o�k�[�2��z��y�v����eo��#O�P_H�7֧H�$c�4���i�b�ABW���]y&5t��g�̶߹������N'� A�4���*S��1��+����8P��3�;�cQ�����&�J��&徹�Qy)Y���3��݉Yc���f�sO�Y���!�K,5�(><N�',�w��>M4j�����(��;�X�l홪�w�*\* g�@MxNd/ͫa�� ut�Z���*�<v�PԨ�ɛ�uM�Z�u;���t[���`���]x���Eٝ����v�g�b�b �Xd*��䀸�E�@w��`;�a�UJ�$>�l{��c��Y D3\oV�+��j����o��.CO����Fv��̣��o7�G�@�&�!K�9;�K�3�$����Ӡ8O�f(�Ã���*��V,#��&x�<'Q���������/�G�b&�WKT�i͠�ZU`��7O�r����K�\���*錆������{�F$�7�d����x�i{U�a�f��!��R��Ԙ4�G� �˦���fh)ow<7�.�K;�4��7HH�=b	���$(��ޭ��°\�n��go���d�".�S{[QQiQ�;wV��^��X8C���;DH����R{������i�[��LY�t�ʢ�'54�%6F��=s	�l��ͫ��b�����#�
u�,RL!4�4+�h$A���@~-�h c,�ԍ��7����h�<K@i)�7���_d��-  /�x�&��
�C4��F��8�l���D��8�.����?��y�Ώ\	Q�W�����*�e�z��d0i"�\q= �-re��6�E4b٪�G��-��6�URD�o`K陔/ɓ�QZ��O�e�a��)I׀�ت-�~(�EeC�W.�L�BҖ#�]��HD�@:o�+�iJ������brѥ"*C��؅����R��09��dL5F�D|�L�ѕ|
���ʂ4%�Wx�*(a�*����Ed#]Ɠ�Ò�qI�����\��Y�NO�m��7���d����ɲ�1GY(7?!"�.b~�I��BaхS9�d�
��y�M�P�Wf���cZ2��9l/� �9��@]@��t�(�j�?��q`V��!�V��Zۈ\��}v��!8}ڑܚl�ĩ��_ְ6�:�&F_��S��y�)�f�%+�\K4��hc�䞟�H�8I2�yf��y1�e**�O�=�ɉH���=��Ⱥ����RbWܝ�f��?�Ad�'���"����S}@论����3f����N��=����_,��R]��c������OXi�Q���7Ԛ�so)`��Sm���p�I��#(.@����H�#�S�.!����u��P��q���l���	�>�@\`&T�j�3� �����2�®{q�fNa~u���V6�}���-n9����	�l��>�I0r�
��%j�d��M(��!�%�����-����i����<ظAG��3���$�������&�J���&^�@pQ�	ny�p�2C����K���ճ������e
�b� ��Q����U%�.p���O��ў	Џ-�����T/�U���
�e9Q�YP�.�� j��Sk��S��{���q`����u�*����#����� pWH1<��'����R��l[�l�/�Y"���uV �U���Rygl����3H��l)���y�.F�#�9��P�[`��!ÌO�R(�"�B�q� ��ʊ���;�z�&��ZvC�w���=����|���"�g�$�Jf��n����?��?J�*�x'M�V��T�P�G(2	 QnL���cR����Xa�9��O�94W5Oɘ,�r�>��R��
�<�۩���_�\ԩ�>��w>�,��\?.����8��ơV�O�T�j�!,����CqP���}���G�k
*�^ 1�1\��
�[O'Gk\���E��a/r�-%���x��[�8�����ug�Z�}ms��e���*�S�3�������J�4)�>9�D�A��E������g-��$�˂�u!���w�Nx����T"�s[aܦ�I���Y��}���E�1$ikE��c��T�Jq����'�6��~�P6.=bU�L
�Y��6����FscQ��Lsf� %7C`��4iih�+��Y�kt�/\�7�1�H���ኢR�g +��Z�X��[�����.c�S���	|���N-	�z �K���nr|��[}=�����������6��W��N���Kˆ37/p��3���s͑�2g<�Zc��:�bD�ց[r��˓H�В́&^ժ�%d1��A0��/l���/�3��4^M����v��m�3���-V^�[�����fa�u��a� �l�aDHQ�m@��-�`vاAXw,-�J���6�9v}Rw鈹����;�A��AG���}��ЈA���L�lH��"�^�r�}*?�t^ۛ�%�z#+>R�Lߋ���n\��f*" �~f��RGU׭�\q}��FSI! �ç�uIȚ�p�]L����6:�E�x6'��Dz8�1�8��՗��|��|�H���A�C�i@��{�;��}p���(h�4����o���������؁�e�?/�/$��LtsJ��:��89�LN�}� jn(�����'c��������0��:�I������L�(o�a�4��?�Č�ŃQt�@cě��x�&�\s�hy��3f)ׯ,t�7$��Y�T���Q����6^U\t�ޣ���E��MHtQ��D~7���/41u�PMZ7���#�5
�"z�F�la��Y9C���)���n����n�c�Pc8��Ợ�ޢZ�?Ҟ���x�-I��|g@�tq9�<�H�[�_:/�c�����\9#�iW`�����S7��Oλy��ň��J�o7��"T���h(�m*���è�08
7k��R�di�f �t���;�Ӏz�d+]���l�&�Y
�g��"q!6��-�a���N��y�#	A��}VV�����;uE$��(�3� ���U�<�*�rZ�6?YA�
M������]��悵�;���YP���;b�/�n�(kV�eL�����:�j�(�v�N`5�����͕ �p 乍F 29�V�©+3��8QX�qH�1<6�o�������VG��k�x���W�_��G����0�Z�FQ��v����*"�n&֕���{.	�Q����b��t#�������B��zS�~-8�](���ꉲEõ�C�G��&ښ�<�[�c( �Zˣ˧-�ϤuЭ�6����L�Z�JO��Nݗch�K��Q�w&����5��)N��x)|p�&"k[�@:D��r/`
�4�H� w��)N�e`�c1~�(�/��6pΰ�	�'᰺lȬ3	�D��(q�M42��Qh�S��5� �ey'�2��f0�^t�e͒�D	�����r61�A"�~v�	�̯���fV��P��H�$�G`�(-P��Mc������U�a��]����g�:��B�N�-���%��:�A�ȒD_<�ކ}��<��g��/+z���7e�Z�5O�I�{�����D�I�aX��\K�D�V�2jh(-E�j����ǐt@�
�p�.�������a�Rw<���?��ݣ�R �<�U�H����@�b�O��1a��)�O�Ҥҏr<�
ސ���b衲/\i�Cj�'�|DKsM�ʬ�r��h�VN�,B�e�Ĉ��@�R(��%$�Ý���Db������e����7��nK�?�v6�)m�O�Q����E�<Km,�i���P��_'#L,$�_L���7���!�}	�g8K�R�(0�]us(��.�h*��5_M	�x%��:I���xJin�T3�x��R�~"׎�X�]ه�0�<%-����|��J9�L�h�jb�nH�5�)A�ko^OZ���ض�Zo���:�5�:FscU���c/���l�M�Ց���[�y�HgX7
��(����<}+�L��`c��@�p��6Di.�nJ��Q���R�Hѷ҅��ze���r:�"�7]1�y�g���5,�n�;t;�(�8H6c�f�ّ(N�P��a��OH�_��G`��
l�	r	�-C,�b��"	6���yK�"f{�!E�_�%�9���Q�qo�������%@f6�ד:�/L�w�O�k����i���(0��������0����,������.q�m׻n%9�P��H-x��+��R���R3�?� ��Q�c�?a�%��^��Ci㈱��A]v�Z݄�BD�#�� ���{��a@r�"Sbd��<�.�j�X�o�Tç��F��}�V(��P�y���1�[�6Bl�X�H��ɏ�K.NN�+n.��sw��?طD���$��3vbY����M���y�]�I�[a��F��)B�M�����@��/���y�����:������ܶS�U@U���E��/�oK�6$;4|��v�����`��K�J�+�/H���Y��d{?�+/�<�|�����JU��T�G${�o̡�N�"���[��%�֚V�}>G�X��1����ݏ��d���kpe �G{ݐ��g^HSy��fH<χ��/k(N�-�Co1 O��m�h~�k��?��%��BYY%��±����N}����T�'� dmf����m� ���K8���g�� :��d�� J��(����- �{<kF �Ϭ��od�t�a�{'f5�熧]�]�ӊ����m6��l/ioS�ߓUH=Q�[��Y3ZD���h�O`#X�H�3���4/���I�m�A(�� W?)�� �H��l���GE.���jsv~N@a��v}lc���m�M�4���bv}�5��z	e�Ս�����0�Ǫ�B*�G�~��k��qDh��tM�h��l���*�~�����	�q��*F�5��g���XE��ZM���{&����y��ٱ�5�������~O-��kS�س����C�~����0 �
�P\�ZJ(�����Ǘ9�P��#�yANP�=�x*Æ.�e�XW1��n���#�ˮ�d�%��ZX�b���F蕆W��K�����`jg�=�re��K<�= �+�zPH�3��#�g�mu������Y�
(`���m�t��MY�i#�ָ�E=�F�li�3I��k�H��Vh�s���m����I�����k%9}/��|)�Q�_��CE�ܖHu�C��v�(�u~�T���A���:}����2�d�������9��&@��E�W�?�U'�Ι'��	��, %b��Q/�)�d��u�é�:��<���P,�Z}V�+���'���r�&L��
&�r������H)\ut��7nkB��p�6q���}��b���L���h��cR�@M �Q:R��ܴ���rƃ����8��*/�2�)��)'P�p�ab�ٶV��퓲�2��F��8��M}R*\_����e���`�HJ�����A�X��t��f�mX=�>>��x�4/�	�������Щ.i�w���l!D�Q�8VE�y2x��	[1�|�ų�>�JNK�##
��b5p�����qڭ$�E
 ��*O��7�-ca[rj9`�WI!�Kԭ6r�v�t7L�[��Ʊ:nۗS�9Ao,5�/MH�C��I�wPn#8�N]��]`��א�s[輼�s��%���>�L�ِN}f.�r��e84yoC;P��}
��o��v瞟%@h��7��m���7�;��_�@&��ֵ�5�?�d7���Ub��ǫn����Z��<Ȯ��S�����Qѭk��9��
e��.,6 ����ܔ�{:�f�Z�5s��,k%�^Of�+Y���ح44O�4�%X�1�!mxC�C
��n�Hn�Gy����+࣎�Ӕ9 �jי��Ȃ�gn���S��.y����H��|nTT�sY	�CD�c�d�a+8��kvt|�Ƿ>��KLn۔�M'T�6�Ћ���;�ޅ,'鯧�=�H�/��b�쏆u]�[#c9���C"@�z�3{o�� �Z��ʋPmpr��M�y������V�6����Z�v"�vZ0���5�?����&�,�	Xͩ߃�O�ѥ3'�xu�Bn���g#�����0�r�׎S$Zb�W����R�E��w3�"b�!t%�1C��t����)�o]�(p���-��4Wv��"C�db�6ȩnO��i%r�����/��"�q�ʤ���ro'�Yg���Z�\T�|�����i����l������[ޓD��᝘֦a[xFL�	I~T����|�0�F�$-�,��j��˛��������� &�[����p�I-t�Vt�ٹ�,VIE_��vfFv�3�y[p,1�\����<�4���{�`h/F�vJ�_"_�ˊ3f����d�,q<f1!��$C,���d.�F���]�bKus�Й�@�l�u#��Âޠ�Ȳ�`c�<��y��m�J#�pJ1j�\��/��-\@ ���oCn3�D��`���+�-���^f7�9�Dk�T�跠@�q��i��vHDa4@B�8S/."�dKQ�8��l���]%�s)�+��=S0������J��B��PN����u��"�*��H]�u(��[se��´3�l=E_�w��{��,m2I>�0O&��/Z֙Iw�uMκ������PLK���H�ND��ih �3�Ekv>�s�7EҍGpH��v�附��
MJ�4�;��t�~ˌ'�Մ��������8��NO�b?�X�IM.�S���� ���h�)���v��.Z��@cݿ0�(aR�ޟ�C�]�� ��62�j����2X���L�&b�P�pЈ���$���X]���U���Lm.��{H��)���b�t�+l�9j��B)x�}u����$���E��/� �� �Z�åm#࡛�)���[�a�XX���J;B6gC$��|�e�24��y�^��@�l_�q��KI�#<�΀}R��p\fZ�=� 359 9����$L��=�--�]�R�eQh�A���(��To��FbIӁ�7�~	~�e�i�i��YṀᾌY��$MF)H/�2�^euR6�0�/܇4���\K��wh�{K����l�ćB'��G�\ڪN�A!R��}J�4G�A���fr�Zψ���#2 K�I��b�/:�:��4�ρ�g�mU3�hc�X̐�r����N�$����ٳ��N�F�?�90Wa��C'0�,am:M��'�ϣ}:��b�J傍�aհ-��1�q��h���mù�Ր@y"`����k~��<���D�	���WY�R}֛*��'�yF��#���5�d:�T��m���51����l�vqo�~�!Y7��g�(EE0H�	��]�`\�K|qx	,q�@pXlP6�;�����=
Q��,
���$K�w�G���'�]��io�!"��R�dV����ͽ߂�K�(9�pR��0O�4Dc����G@�Lvb���e���oG��i��+����Rd�B޿����Ā:-��R�_�I*'��!(�u
a�O �>�+,,��.��Q&vc�资�F��9M���W���p�eX�J�EҢ�V�r���>��\& !V�<�՗\S�N68�l��NM9R��N��7pWE� ��"��M҈�iL�������n���m?8c��^�9�P��7p�X�ў?���Ǥ�?lUzH	��V���S�=�D�$�*�r,m�r��h�P���+��W6&.�L���J��Np��=io_���~��X"�98�!9���1
1.
C�%b��hg@+�t�W/��?R.�=nܭ郠5��� J�<��I�4ݥ�H��Ӓ|��m�#pMD?�u�����"���[k�ؚr�\�qa*�}\SS����:�
��F���m�����ѕ�7����!���:Q�
��K��4K�x���5�������r���%\�{��n��m�3�:,�-�6��1 :�L�w����wC��ȣ��S`%�I��(t_�<������I�H��4/�B@����R�X=De�?�����j�(ձ����KD	��v�̳֙|"�WZ�#��]��ԡ��6��5�DT�~g{�
sAb&�B���F�3��9o������!
�\�ڻDfx�&��z���^
���i㔪����5b�Fd`�1�i �jՕ<����|��I�e�4���coBR���
���"0�l��Dg>NT*��0-��?v#ɡ(˕�Z�`<v�e�Q���������>tL���S`ba��m��i��5��i��q~�B�,#4���f19"R��?`L�E�mu�x0m>HF1uw`
�_���(T��z)��?�8̐����s1�b �wf㶫�M�!��2���HV������
���Q�']��IJۘG�8<����8�������8fw!��g�rM	5>����=��;iޔ�E^����҂��X��'e$��璄լ��t$Q�dy'���'��a}q	]�ك;Qs.�'��MP�m-�w=�
4���R�Յ�)>���(�S�#S�����l ed��ႏ�D��t(�Ȃ��x1��!��O�X��sI	��q�'��Qop>��B��	�PE������l���mÇ�A�A�J�lo��/�Fr5O�̖�Y�w���g;|l!j�<K��>�N�������]pu���@@q$,W�fxf�A��ؑ�FL��F�J�1�U���( ��]iR�b@a�QҲػ�)+������Stahg�B7�8!�WX<�=SG��T�Tj�-ʔ+�d8�����޻���@��ĎJ39��4��>')�hkR��v*�Z���]�2x��Fs�&C��g�"&��Z]i)�ڗ������_�&�0!��k��K^�.ʩJ��)^W:�y��	$ظu�Z~\diZ��FVd��P�ą��ua��y�L��"|H�Ob�zj�X�E�2Z?z\4�ZW+���ƶ�*E?c�������,�w��~��l���{�O�C�D;����3�x)�Z�c���'�h���M8���+�X)��ʦ}BDW�������"	���=[ Ԃ#�
�����Z*��_�R��
��;z�y ����r�=J~��m4����7iU��Ɂz]&�I�?t;�<e�?
�LA.�� �l��!��+���/�X'#~�6Ƿ���"H�P
;YW�E认���|T��(���"͐ug h�G��^�#�f=j��x�Z	%�	Q�T	�W��c�m�#"�Gː;�e�gi�g0S`/}��Gn�ZM����cEK��S��EϞg�[5g��K�a�!h��Y�R0O(o�.L6	ʣ�?$WT����t�@�����[᫽p�;�G� �������Ĝ�&�)�
��'7Kqg�l���:B��;4,WL<�d����� �z��坓�c]T��Db�魖K���7�/�u!���v6����1�2�'o%QQ���ߜ�N��x?���IiX{�OU�q��·��o9���&��Ta��魝u�L&�r�2q�-���P}8�%�*�a1Ԡ��X{���@͵�|��dSQ��+)'cn��,�l零���bf�>��|���@�0�3>�FvԷ����q�IQ�5/R����%MϪ�%�9�sKɇL9V|Ú�X�n�B���}g|�a�\?�?�{�d��|�-�k��)��)�9�~3l:�K��43_�I���������T:O�}��#/l�)m���LG�{�.eBV��2}ɛٺ:���d"4�F5��v����}���������J�.vG�b|>�W�A?mnT&/�h��x]�2\��N4�����(��M�����p���!������}dS�*��Y��|��<��A,�%��їd!�_#�8J�	�XF���I��g0��0�B�,A���|�eX�h��]'SP�q[hd8{��4�2 o������-3:�j��+7��pAw2q�}k$�{^���@�(R P4_��*����������0)��E�:J/����(���0��Vb���I�.�	 �a����`�&	�&j�!LP/�TMD���`�wW>��Ȓ�N]�{�(zR�E$�Z ����:�YQ�xN�Im�n9D��:�]j,��[Q4�d>��k}զ4$6L'q|qu���Hf�eD+�(��3�|�_����H�6x}c{��L��h�1��W�
?�_�1�2jԳ�O���<(:����m�Y�$�0������.�ɛ|}��H��E�C?0Kzn3-2²G"��*V�m�+@'n�a���т��z#�4��@��� _���!�6��k���}��1�x�WB6<`��Q�7����[�5,����?��܃�oJkވ��޸$��M�P�%��kI��ׯ1�v�)��3Z��ל�k�-U�i�N�]�������{V<�s�����K|�+Qp�A<�>�ٔ��Ĭ�� ��\������+�L&��Ҡ��B6gN����H�h��^��9&�AN�s�6")x�t�E������:��-�\k<�-l��i��?�9G.w� �i>o��B��Ҽ��<��Uvy'��	�b����k��p�I��Jf�/$����n��w+W�;nذ?�R�|�^e��L�x
�m����i�1!R:%e�cm�K�B���>��$��Wd�ǣ��vRx%d��H׷�1��O��F�ِI���q��B�Ԣ'\�ZW��1ɑ��vNfÞ�R[{6��wm�}ɶ�+M{:"�}o1�)�/������eM��Xm�ܡІ�Z���f �l� r�&�%R��M�6��Ŀ�\m���8je^?Y ���Ȱz�ސ��?�+g���=SdI���0�xE#HF��VjFt�������4xK	��?d���62`��z&���E�b5��C9I��"'$�\��,$qe�_n��By��×'�WU�uJa'ƴ�%��Y�����+2�b˖�c��:i� PodL�}l�e�����' ;xC���e��|���������JMpW�N\g
��Ax?�\q;>J�M��T���2��.x ߹$� '�{!�bԡА3����'�Vf��h����i��RH2��Af-���)��Oziٰ��E��KbsmDJE4t0o�_�������3���nVmr�0�Qt>�j�p_2����v�xDd� )-�L>�|&t�`�)���L�r�Z>�Y����s$U���n�� ��
�0�Kv����B�ȼ��R��SS�c�_�P>��cjJ�D�F����öf$���@��tO����}��R8��2�T#m@��^��93\��;�)-�8J���3	��Y+�%+E����#-V2~�!��c����=YC5n������4g1�ƥ�UԻiD^�@Y9��S.P��0�c�V�ns�����E�u�**F}%/x�JdЊ�H7�m����^�3�h-
�'�P���Wl�[�& ]�Pq���Mژq�WH��V���J�(��K��Z�V-q
��O=��!k��{� �6S�'���W?��ܐl�b(��z�I3,�d�0�x�9o�g������oq�k���=C}�Boqm��Hɕ;*��S��bw�*W�O�Ԑ6��ܥ�G+�m��g<���"eɨ)(�O�� ݄�Ћ����9L�,��	� *PXdo0qv6�8R�^��90<������H�q���*+b�9{��l|9^ć�(ql�m'�Ynh�9����ȫ�Y;�{1�E8�5��X�j���t��	b���f��ڟ��^�},��,��k�Ht�#�ہ�R��`�mՓ�@�J������� �$lPr=�׌�?;)�F!�ɺ� �"���-�e��/�u�i�{AљM,r�6����>�uE�,�����6զ���,��Z�Yg��њ[h�[ث�'��o�`�c����e����4oOH���CqiyҒ�P�b��Z��Աߟ��~�j��&60�Տ��	�V�[��>ZʣO�6w�x�d~{���y���9#i�Xj%��*�g�w*}}ЏȻ�G#8��!Us�B��m6o�<J-,C�[�!}/��#��F�KU}�P��I|G5��)�Z��-������C��rS��=w�Q�3oDn6���	��)Da<��>���i,��$��)כ8��W��!�
ٚ���B�RiB��U"��ꓭ��s�,��W���F�F}�+�s��H�H���x7��6�i)���r�1��i��|�P(?C��)C`z���[`��sn�fv�km���������y�g$`4�[{�X�썜��2b�|81�ß�	���\
���w�,=�9�2��nO�	�ж�c-j�-��K?91P5U�R���o0����.���wG��OO`�ڽo�{�L�4^p�������쾏��~��i���2�+A(�1Ѝ�s����0H�#��C����*��j�Э�o(�����*ˡci"����-�ۯI��
[55巨�k���W��C������,��C���+�v��r�iDeI>$�BV��7Y5�Gڞ��.z�XWa�%��R��Zy��_�]�~lR8�����ɨ�&�G\H��9`��<��-sz �bY푂��r+��a0��p��y~�c��.06�<_�=��ݷ	S�kl��3ȱ��(]H�)y�p�H�t$V5-a* �[�� K�K�H��"�;�pe�
v}�z!�
�>l(X��lw�2�a���*\Z��y��rnz��.̢��k�Чt'�?���9�Ls���o��V˄����OeF�X�O�X(�E:��1z��G�P.�؎��e��S�ʱ��L�ޮ�|t��UIC����]ڃ	��&RdJ筭�����U;��6�v\(�RK0{ܬ���;_�b�/_�sz5��J�"dO��
>� �i����QL#���~�	���t�*��M+�9+��s�V[	�OKp۷�2V&�͸�ҀSQ/����e[�r�N�R��ɺ��Ƀ��o2]�X�O@:����Fa1}t�l�9�^�@�)�Og{��j���i��Ӕ�͊p�4f�*}�a��2�)<J�,��2=�&�j4GP�ӊݛ7�yڜB2vȁ��F�el��C�Y����#Mm�R{�8���YU�U�6P&��}��<�G\�����������Å� ����|�D��ܕ�4N�t{l���Z�j�3���$�ta� �T���[�rRu�����S�6�#�6Pj:æ�_��i�nB8��k^S��ۄoy5�ba:!�!JȒRٗ��%LT�nSB�e@���bi�D���*��ixH0��2��QՆn�T�nVj��d7�ڔ�;�2}$E���/��ȳMc?1m�
6L��z����)�>�,�J�
EexS
^�<t6��օ+��eпd*Ӭ9�Z �K�4@^�L�ܸ�gI����,�h�c�P���uޛ �������Q���o�7l#�r�tS&%��v��n6XIC�o����Dm6+���)/��?�J�r���I+�+�CFؼQxDXf�1��b��OK*�\��N�c�4B9�^�Nt�6�HW��o���~�Z�����b�*F�:l�]՛|&��y:�emڋ��㍩���dF�n��rK�2�W9��Lk
�A=��Qj�L��D�F�b��m�ôh�,���Z�1$l|�!K�F��-��Tb!:VV�b��"d�A����7C��Jne�t�l�+D �LHm�ݑ�� F�į�`��J���j�YŔ��ѩ��X�D�Uʾ�*��uhP�l� �C����R>P��~��)1�7(M�A���L��\�����0ec�E1F(/}.fh�	Z�;kt֋�'�"��r�o����Ub�&Br]5i+?/��B���9S��s��2{�8��0*Q+8���b���ac�u	�Ev�D�>�b�~)���D���yO�T"�ZS�9�d���vL�B�*E}��'� �����H��"ؾ���b�{f!�5E|��6����Έܶ;��)�S�����Q{�#�N��q�F�J�`��	���g�c� A��(�g��I5�����K��?�b���>����,V+�y �D�����
�c�A��Z�E-��Pu��`�=�3$�c<��B����$�ǄKoG�=$���s('/�xT�r1��nfԷ} �&X���ܳ�@h�$�,�[)0Ӗ���2����y��V�*\ȻC�-����fq�zh�y�϶HO���'ʰ(�aA��ڏccs��H#�PՆ�]j>�(gHj��a�����Eu���z���ۮ��E����>l��Sv��'N|�����|,�p�i"K"B�Ǆ����|8��Ë��r�(H�=�7k��'��#t�_���db��2�|t??T�I��o�ﲫ���f#��OڢH�2e�|+���5=�vD�\>q7�*��#�v%eg��d���.J�P��h�-X��.�ȣ�sMN���>9���L#,���VX�5�3��0w���!w]gZ�2��|�viƾ�����F�ު�m�UI��ۻ����޹���9>r��l/'��@MJ�F��H��>�V�#���j�q`v���Q�	h��}�V��8kSw��l�iE�Y���Sޛ j�pX%��a _�������l���.Dg֢��R��b[fVK�;�IW���$�w�t�4��cde	M�z}�a�<*�������2�����O�H����K0���IQ��G�`Ӓ'�k~����,*��YQ
d>q�F\����+�[�6VC��u�`QY�$�<hK���żnPv7L "��4ld������_�u���c7/"uW��1�1���Cִ��lNä>EV̥�FeUͲ�*0p5;��l�����Щ��P�:��7�o�$Ȧ�4�k�A�bPz�����%C	�$��>:ō��e��L�h�'��]^.���O<���7@%h���U15D���Rem��֗r�ɻ��c�(F]�;*Xx�"J�n�e1SK�/�"`t`�����_���W�O�_��#\F��<��*E�(8��Zޏ����e\��{X����=�t��Ψ� j	�1���`!&B(�x~_�_ĉ�Hk^`+�dv�=��c�Nm?-+{3,�hq��BIF�+W�	�ӷ.^BC���p�f;��h #��)P��A�B��"1�_)9���� O~zC-0��4)�`.�� �9YTFlf����L'�Ñ�i%,ܓ�(9�����u�{u[qT�>�� ��3Un'���g�,�����o�P);B�V��+oT�@#k,�fm������b���dkO����H���z[��?5b�z�Ķ��I��X�����Q��3�q��) ��R���r7R>T�2�t��g�8Bm>gev�h��j=&������F;���	~���� A2��P���?�z�����7���S�{�C�z�V�Tv)�� טM��P���g��e�=�kq&I��L��dG��D�]#�[2�\�ɇѨu N�t$N\&��H����)��6n��,%J��7�r:�>�{h�G ��$K)G�d1i�GE����[H����&�,�ڝRnn���)���Q�g�`$:N�e�0^�3�\����rM�-Ɠ`ex�-6��2�Eӷ�w���lk�:�Γ������S�^D������JP?�S���Y�xjI,�r+�<�� �����!-��m�c�cx+L�(3^�'��b7y�r|Ȓ�z{��`���E��EM�>c����lG��c��}�yF�7�����xz۵����<8\6�+�n�)���%b5g��@o���紨�z���L�s�{����~W��z�P��3�A�N�DF�&|7v"��ֺϵ�:���X��C\�-j������n���U��`�	�3��K�֩�JG�E3"#
����sD,Y�Φ�����Je��GZ��d֢����d�Ճ��{`F%��-9/>��Kf{�i�F���%����	
�B��{�ސ��3D��I�kg�/�df7��D�kkI_��oG�����"G�1��!î��ΩA���r�bB6�0D.���J�&k��Q�:Or�ۻ�Rb�
��� RI�Ey����b�NE���_���N��+h�˗dC�̟��䍌�Ѻ�B�⯸p\�,n Y��b�(���0�+�c� <�ҵ8�K�kl����N��TH���l��y��˶�c���F㰂�u l�Iac�6�1R<�fkݕȤ�iN�n���� r��W���ݻHV��A9Ʌ�«Y�<T>�M^�Vbk�rɭC���C�	�0����H�Oz8�kD�#�i�������A]��ۄm�0�$�bn�YKV�$�e)s+�v1~�@�j�#�ژ��ț�|[�.�!D����^9ը&�W\�0�C2tKK%���Q;�]��?��" ^|��Z6&�:�x��QmŌ�[+{Mų#��|�B�.�M���� )�ǇyPL����d}VcA7�"!��h���B	Bs�����ȱBq��f�7��	�k�o�6�8��]�jP�f��OB(Y�J��A�����=CR�I�w6Nwx�ܷY�Q!!ݬ�nh��yв;Sγ/�[w9����TP�!�t{/��m����AЕ���Mhi�^@��S��K���?F��u���݊���[��_${O�0�x凵���i>r<�u@�h�.4��2ә
V/Ó����Ix�(����<� �?x�SɟJ���Ƭ"`����q�AO�O����N�s�6 �t�{&�V�.e�9/4��_O�v����MZh�_���Lo F��i����B5�}�KѪO tO�7o4%@v����Y;0D��Mˎ������L�Q1K�`K�ԓ�;Yn֥oʤI�U
�]+K������[��D&�X��{@��-�6�P�n�T�IѺ�#:	<qF����7r���4ʥ'�Yԩ��ڢ����&��!��S���!,���M�m���YN��枴R7N�`^��Nm�)�aE�D��Ww��	`�FΩTB��-~�l�����X�*��
��M��I�1��P��@���|�ʎ�-�֖��I�f�K�+�`T�)meB�v�0S���A�zk1[~}��a"��p���O6Lۇ��pQ��XdH��+�ĉi��H����++!n�&���	U`���+H��Hp����|g��jp�a�����ߎ�}���%��>���v@���%�+�?Sah�)I/���Ӛɢ���hK�g[r>�u��ٱfK����Z��j����G�Ã��i� �����0��0��\[U��P�i���.!u�<�>��B�*יB5�V�{qGQ�iF�a��g�����/k��xD�e�����]�f�����f��R{w�l����_;�Q��N��k&��@���Q��f��<������O*b�/u"LG� {Df�RV97$�V���%������x�R"lԶ��Pj��Y���Q�y�*V���b��+�`vv؂Tg@+<%%�u��<N�L[���&f���,�k�c�z�Lld�Dٻ����K�j
�IV>��iۍ���u��#�9d��1��".^\� ��*�%����H�U&$:.��L8+�[����+����Rو�("5N\%d ��7�c���W���[k�Z .�#s�8�n���vŕJ�*�+@��K2g����E�� R��wd&���,$e).`�۫�n��m A�`�8�E���(D�d���;n|9+'�kK`�\�T�N,Z�3 ��� �]�i��Y_c�W�!�`{Bf����iJo]�-�4lw����,ag�!o��}��X�`Fr�E����wu�
,^��i�Nv�hK)��
��"m���J��V���KO�Ht������y��$� 0�8
�U8�KX�R�w�;��"G�����	��*� �}�]��i�*O	�Gr��aȒ�:W���o1i�M|NN�&)����f,�%����ɋ��2b���(E��k��&��x��UBlM���]�{?��P�<b�(O� �CG���./��p�JN'�Mϯ]ENh��P��0��b�aJP#��b�f	����)�b���9K�qC�K#��+���RZ�ܔ��G���kjH'�0Ҭ#Αk��G�w�E�.�V�'�ij��ʓ8���}�7c���@2h}N���V%�_�V��a��&(wHl9�n��͚1V����}�,�CʟB��D��i;Q�:�!�<�K���KyHO�B	��N>O�x�1�簾��rJ��b鍢A�B�ǩ4k"`gɮ�IWw����"nW`SZxh��ahavhG�u�=P�n:��sM��%~ğ�hx�ӡlE�AE�?�?�m�ݍS%����JZS��m�d�����Ϥ�ߠT"�� g�j8g���oy�8��|lk��� ��0^ͅc���1RHA�ns��oH�<W�u�	���Ӕy���_�j�`R0�l��}��y�aw�� h04Kwu4uλ}���ʸ�	)�IkC~¿�B��Db!?�ִͲ�[ĕ�=���9�L�vM�1Y��=�c˸��/r����FFPC��\�8�W��]�!�.+������X'���4�J
C�b�o�"����D���·!�80\���	1�����ST�� ��*h������pDV?,�2Ҷ�ں.�<�P���o G�ѡ/� ر�Q��:ְ��'�>[�@��i l��F_�ͩ��GEǂ��MF �_�Co�m���K�U�S�^�Y�/G�~�K����'v��٢�d��Af�r���&�iV�����`���-�E�B��4��I�H�fp	i�����E�,�}�٤�\Ԣ���R��Oc�X���	����q$m&8y�kŬ>zM�F��0k����(���y�O!TMW�Y�[���l
��;��{7��P5��P�-����В��FA�#ȗ�iB*Γ��9�����4|"������n�7��k?lm����`�S�}}yπ��̯޶������4�Kt�"A�6�ݡR�G�M͙�UN�=uk�_��Ʋ�l��j�L�(M�QL�>G��e^	����h�X����3_�\D���P���3�W¯-x3�c�L�/��o��N��P�F�h�H���6��^C*�5�:��#.]���f��$0�7-���܍kP�v6m'�m�H�j�wQ=j
�L�=�r��D�JAG��j��aH{ۘ��)&�X��ېIp�1턔�;����qcQA�R%�JP�l��JD��
g�:}�4��-��h3� ����m�@K��F�Qѽ@`4�RD�����F�K��}����`�q8�W�����
+������n���p�6���I��i�C~��t������ 췗�*N�bR��"�T_������}a\^��(��q�8-����,��3R�!=��#aAs%�B��`o���D(�R04���h%"&>�J��1�f��HNkn���Qf��/Ii�}oĮ�VX: {O��҉��F�#-�K~̤ݦ�	���|�`@���P8��`���Sɛ?��+%�K���G�����r�1�[E������Ա0�,3G�۵jx�B8�T��bhZ7.Ǻ���٣��7t �'���|Q�p�^b ި�w>���"4�HϜ���1n�yv��є�/�B� ]��8a:^1�E����(
�8�u����)Y�q��vf*����;Ce�v�����i�s&SfE'P�8 ��0Ƞ%�0_y�nN��ڇ���O½�/34J��R%xf���Mu�@_!��1WO��h����ԃ��8�L�&��k(<�e�w{��.��W����������2�U�HӼ��1��<�Brz��QOQ��Wů�"]V����6�3ch�rv-bu�QP������0�srK"��j��T���^j����^���,:Z
�`/i5���(��=��EX=��Ev�������R����8"�䦴��̖\S ?���*�c��"�jF3�����"ʚ�T�-윤�:[��5b�\< h4΢-Q��Xa����r
��!S9�WT��g3�ˈ"�lKfT���]#�z������4#�Cs���9�ï_�^\��/U���
�^O�g"�?�����n�䪹e�@9����������X���d���͊�(��GzB.�O�ڳ�m(�&��c��F\�.K��{u��Ҍ�Jg�O-J��_�Y~�&�՞ 1�·�$Y�f�&8��44ӑ8�u����.�l�m�L��,ѩ�����!����z�1K�?�h^��GW=���-�2<`LX�.vQ�m� غ%;��2}���I�'�>� �����OX`�->��h�%��k7��%��A���L�qQ>����3<"#M�N�
������)�[�U�Yz�0�����s���o��m8�-�cMp�N9�4F�0�K ��8��b�z��&�xs��,�h-�>�c�γub`sm�C<����b�F�Z3�$��s��p`��X���;���T?�s�aRJ�r�tː���z�O��U�F�
���a����̗T�mF�dN����W�����	�F��X������xg��E9�7����Z:�{vA2P؅��{'��w�)~���3W�S�)V]U��U�i��/��r�.�56o�i(M�&�)������h�#�"�B7	��=�9�Q�n��m[�C�YF7�`={xh�3�a�9h2�v�P�y�5е��]�8�<�,�lQ��cM4��sk�8D�Y�G������C��3; ���%�{FM?a���'C��/�����X��l���e��$K��-�tT�Y��E���0t�E�+���Fp(����u6?b�=��$��"����}�y�7��%��n+��+p����4H�����x�v�7l��ď��"��V9�ώ�@[��:-bbT��[p�$zAt���:�^���!�% g"��r��7�O�b��'M��L�!����ſ��D�lv�O3�܉!/�"P��QL�)�0?X�eݾO��`.]��|�bvla�t�C�
�o��=��_�M�۹��xr�@0�*��G�҅8�q��z�J�!@�T
K�;�1e��/�N�|�s���g���
�w�*��X��3i��1xѯ B{�-Xa_�25�S���j�R_up4��FD`�a��ߗ95����ǭ/Viʇ�O���KW։XS���;'ҭ���b��R'ýu��|_-�r"b�b�j[f��h_W�3(��!�0WT��/}ۿ2~*�=R`����ua�Qf��s�m��"F4Y��i����������t�}Ⱥ��-G2ab�ٜ��I
EZ���IO�шK�� J�*Qj�T�r�{�� +�g+M�
�w�4^��^@Y��M��̤����a��s��v&�J��6�܋�g`&LXYS�[5w_H�#��|�E.M�S�P1����w�N�Z�Ȩ�W����"Ps�ҧ�c�;��z8  ĸ��ȏ���4��c��F�X����km0�ֆt- 7������^�<
ab_a()v[�����m�+�&�oJ�ab���s�<�sV��l�9��w�,���&Ϯj{Q��~cpY�
M�{���Ўl�1D��
��h;e�"��FD�d4�Bm�_�CkT�J`�^��o<�9���d�<�*�Mؓl,���$bE�k:hKH� ��o����Q�t�̗WV�KMBE� ���t�i[|���E4�60�F��uQ�|��[�<G;��n�3/��g��k��Ɔ'd�g��0�`��k��fn�{kz&�&@�2�U7kO�`2jNP��
;�7���;|��ʁ�����j}2�����4p-ŉ�b&P�,.��?c;;1A�c
<���F�t,���i\[!�3��vZ�2ӻNe�b��ʖ��܊*��%�+&�H��TU��'ÿd^�J%��A�2�#85�p�����@+�o��Bu���Iиb��8��F��1�Z*�k $�ǠI��u�'%]X
��t��׽��Q��1�2p��)�#ߍԬ�{EM�M7K�3D�ש�fw��N���*�i-F2����4�mkӘ.�o���f���|Jc�p����p`{�|��g�+�B��+$f>�D��}��QL( kP��*R�s`�.Ӓ��[r�W{�3��5IO��E���;f�}�	:4�1U�7&dHC#���)���ʸ�Z���N �=Y�	Ջ�_��pkk�B�9>�L2z�CuyU��[���Ȗ��J��2-����Uj�q}�[�,8Q���φ���/Ae���cI-�.����4��}Al�&t7>q=RB��������ĜA�a�9z��-94�ìsi}�'��>�8�|����Ր���)U����������5���+l&>�4�a1k���!�̍�*l ��|��Dn��3��+9'���۫C-�G�P
NI�@5ƓD�c��6rOݨɟ��
E�u�C��]Me���$�Ѻ��IAtmt��#�u�5�j1�����:���6��0�m�"fpudZ���RXd�T������Ј��5�p���=����M0}��3����q<�]1h��X��a�:Z�$�f������-ݢ�`C:���"��$��|0��;I��;�+����40�P�����Q7-H�o��;�JK䭃:W]��@�u_Ę~����fO�����m����Ģ����i��qa���!oQ=��︈t~ s4"�����)��8�a���#�,t���9�����乳�\,+���=�/�d�r���=�3�A�o�hM�;
���h��|�Zr�eb&�����{���T��<«�%���Eg���햏0
�r~�vL���W]J�9�1z6l����-�:����C>�lAg�%l=v� )-�1����Zr�ǽG%�V9bt!o�-8���,��o�(�G�ջQ��8}�� ������n�2T����5Pf}���Ggj�w�@ΐ��9z6��tX6t9ܔ�+���x��-m�)�l Ms���A⿑��V�j܌(��F/)Pi4��V����u;�<���*N
ՙ�o9$�<�2_6�a|�5#���lΓ{WE�ѝ�|�8(:�ӣ��n��7���ine+b,D��m�1b��M ���$ApS�Kbo"��KL�'�a�0�;(�¥�I_�p	����ݠ��|��kÐ�%F��J���iU�ʿ�m����ֲ�YtiWw��-�?lo�g�2��K~�|�刽�Z�����`�A���W��.����!k6�+4�Tiq�w, �ړ����lp�n�w8ev��>6���2��{��&����R����ՒE�w���IR4� �t�����Vj��|�Mm�D�âK���|#	t 4 ��2�#���T9����St�E�k �)�[�k������%��9F���w�|���\4�V��ȧ�"�$�%�5�Dλn�ia�!�.��~1(�E�6��4�!5ЎØ���"�N���aF��ZSe�U����3 =Z겜7ݮ�J�������ɭU|�� �m+B޽TPO/�BVt������2���(��oA�iZ`L���4���u�����g���2�R|\�'����!�z��w�|I�l*۸�`�^���C��� N��~�=�Ȣ�&$�"���K1N�K.\w&��X�sR`��^��]����F��!���D��믛�b(�&{��~~Z���ܬ(��k6هTG7��OM+�'�L����I&��!Q��Uܕ�'[X�}��A�s;����R��\뀌�󅜆��IG�Hb7���r�2�:��P)j���*Af��[2��<�_��%���<����O��^� ���@K7�Z)�o�9��qH�b:�_r��Fa��r���΋�+@V7�^�;��t�Ҡ�<�Y:6����E����-�b�W��i���(Kҿ"1w�-����4�W����rhj�΍�,3���S�i��U-m�a��V��C���ݥ����Q�e�.�e>��?+�$1T���3`�V"���^�X�_�E8�,���1�H�&@.H�ZG��',V��hi��?��� s�@�:Ǡ�I/2����D�A\P����n�X��n��.!3��L�����~�O��骚J-�(*J���-����k�'�~�i�?�2%K�p�q�nV��{��/�����f��a$��S����SV5F��JR�윻-�:����$�\���q?��,�}��!�[A�Q7y+����$۝��n\C:mr{]e7���+�4�2`�Q㦧�&�	�eJ�Χ�1 Aa�~�D�M�E�ʻ�-���qd��aa�[�ngm���G�	��4�0�[P���<�秉��c����N�r�X��<bC��.E�ec���6��U�{%�D~79�
P����	=_���4�2	@')���^E0�d�9���A�Ӓv�7�,��y��(��������A�/��vC$=�%;R4˽o��/����	����@����P!�lU�G2����,U��P��4Ԕ�I`���A�N��00��t�Dsu��BHJd��Z� � ��?K	tT-��lZ��r��IK���x���h�8/�;5����]��ip���4L���SQ���+�d������c���E.�8<ERV��W����w▕q <��I俹7��юų��&@܍}��,����s�Ǎ���8����x=!N|�$�C)]n�6m��7b�k���+"��V�)��T��T
À��Y�U�=�7~X4ӃkAX�,�uh h�̐$��V����C��U<�p�GC��CE)7%�/7��sX���+ˑG���y����0i�b��Hd�[��xq�o��D"߱�O4��r��J���b79��,����[�yY���F��IPv0 �Oz�Lj���ߟ�r����J��zB��Y>�����1����h�H�@.V��:����d���,����L��H���x���^JЀǞmR t�v))v�Y�OzR���u8��]yP��:-��cS��C|P-� v��y$(K�Q���"#PyL�W�6�B�1
�绐��D>)�R�/�۪S��r�g]�D�觷V�N7��-���1�5=(j! �[��]��O�=	�X���]�d��u<;	 ,�ꌲ�W�pv�ޝ��/j��V1hP���-gK?P`f�'
��-�/��ߛ������x[#'Y��~���I��ī�Z�M����,`�c���[�g���@(Z���ƛ��f?v������v3x��:�h�p�>jo��-�Q�J��hB���_�ȝW4[3�,ԡܖn���Bu�,�a8�-H�3�E"l�r��aȕ�{�uM�Gt=��p��b�qI���Q��#��!��/+����:	�[7sx�+ED��+��j2j�ɍ��ߑ,9�.���M��'� ���P�ϖ�^k��ҦMz�X5��U#����ڨU�D�g� ��ޚm��'� �y��0���.�{�H�f|�^�P��t��)~�(1!����%Ez���#���&5a�1U�M%}:s�R���KTH�(�S@漩��;�a�P��d���,	m���\=�ج�J;`�Vu�z`c1ϒ�<�iO��˱�A�?�D$�c��jcߎܒ��~�eɒ��n-YUf0'�n5��n=��2c?�T{�������y�	��c�n�j��`E���T�>�Qq��,�#����e[U�u	,�e���d5bzv�X�.�SH����0�Z��  ��8 ���?��m�hA9���(�X˪��pE�Ox�+8�Qm����.N����E�c��`8����^�ԥUU�?��.�TD��9^DbN�QQ���K'-�[�$HF��%/���M�݈B�k������R��J�$(e��d���Q�Ĺ�^� �Dk�X��"D���mA8�G)���(�b������`��X!hb(�ľIf&Q<���P�1	L	
]�եBe�J�s�}��uX�Sh�d"��GEh��`����;�Dd�KE��i�X��Rar6�%<в��� �B]�?��}�}B����/ʰ�۹�%�L�=����t�Jw0��a�Ͷ�#tV�Ǒ0�(I�˻
!��B�d��S�(�RT����T���
pB�.��+��[�5U��*�@xg�����'��X�=E;`��do.+�$$�D�QH�V�.*~"vp�F�WJ���]�����R>'4�w{h"�׍/�٥�s��PK�X,6�jR1ƀ��*Q웟��L�y��'zMw(t��뚩k��W5�\>u�Z��<�؍t��De2���N�� #�bǝU�v��Xq���d���'�����5<��z�?Q4X:�.}�*�ʺ�n������|�J�`[�Z�����8��w�9n�3;���j�KսG"Q'J���6Wi�f��f�T�c�gO�)
ny	�[�؆44��C� ���E�j �=�[ WOL��)��ظ�p\��P>�[��h4{!�\M`�qK2Ql��2��	�4k��?%�>�K�6\��y�I�ˠ^B�F���y Ď�Χ��}�@���f>]�Z7��j���C���/��KH�W�����&� l���o}�gqQ:|��vo7��A{�F0ʧ�o��Ls�M��Y��'�%u�a�;6�>h��`��I�JA]�K�WE�Ð��r����Z�H���^4hԿ��ϴ�|.�Pr�%R��a&<]Ϲ����9�G�i(im���1}#h#@����5��X;L��OF`��bO1�N�{$���P_%�{O����%PWV>)z�n-F�j�~(x���߉!毦����$�[�k��� ��X�Ы]�۵gt��!�',���iK��驒�1~��a�:���Fb�*��9�2Q
1�Bĺ&O)��-p����UD�ݛN����4q�V�s��+������ܑ$�v'�(x*����` �gQ#�@�u`&���1Tj1�g��D�"�s2E��<�!���i��۴���A��%�1�
���?��A>|4���pA���iZ�lէo�M��d�i���o15�N%9e}�j�ĴvD��ao+��P��ߜ��̼=�%y�"d��Y&�b:}�W�ML�S�E)����|m����̬�����D�}�b���2$�S�Ոt�h��k��[���y�Tݚ����6��I��1��jj֕-$� �=|�p��a�h�Ϸ��)�ES�;�&�C	��ԕ��@ՋZ�Ϡݔ�:����nY{�Ф3+pZ�斋�o12
�[����"k%r2�h�T�ҜT�L_e&�n5�Z�w��{1�;py�̥R�����di2�|Ԁ:W#��3&~�h�o1Ԉ��8����ئWo�Df��a5�ڽ�NۺN�ʌGN�'�[�����NE����ͦ��	�ea�_�ȣWq�S�DN>!�E� &�`.���lʸ��	_���o�9{$�����R�4 �Dmj)�TGH��5�/>��m��VW4�U5�>�1$T):�&hIg +�5�U������}/Lw@�hA�pJ��)�I�ȨL���;Mr�я��q}�G�>$J���[�#����q&.�{�j(�͕}�K�� ���k�C(E�������0�K
��A{�J�����D���JMf���E���?Ҁ�LN'�����6��R#ԉ�P���tW7)vV4�{���&9}�Q�@���Aa5����T !)��(�)���*-����Q�1<��*�h��T����[�v�7>|bkl�}��<���=1��Om�r���/b
%Ik\��70H�[�w�������Ab4o���)�=����)Kr�/��%��@��.VU�Q�	fRw��2�k����o�3�j��MZ�O(�b���T��}��9���540�0�11PX//����A��leV1#/3�>���mH���U���}�D�	����E�G��Z[�%��<MmLVͲ�p %>J�/!���Я���7�(5����ո����I�$�w�e}
+��<!�;��i(�A�%��_j����1jf[��y��<J5C_�$8�D��SZ�j�?��?RV�U[\�i�6�}�zR�N�G^�x�W��4CuI��@���2PP����Z�e+�]�!�D)Y��Ueh�i���&T�֮�W�����Kك����&�p���E�֑�.�7R%cH�i�(����""Eه��Y��_e:�M�͗�s�BjvVkAu�E���j��7��`F��4�e��)��4�|�4�]a?6)���DG�z}����B%��WvrEn��� �d
C^,�;�j��.���k���E>��<훴��(}�.7� ��M�ex��Q���Lz(��Ow����g��JZ���s$��#6��̒7MAx$#5�.�CHs��Vt�μ��v�G2�����R�K@��0��"DMe����xyv1�K�hȋI���mVj������Οax	l����t���S�B��]=�ED~������I��4<��{������� �7�W��Ȉ�7�C�Q ��G���P�f�qtc��;^ã�ߔ��XZIa%�`�Bq���َY���]���53�Ȩ��'�Gm	�0�M��i1�L.7�Y�Rm2���'�þ��1�"����N��h#e#���HSF��f?^je�y�s���U���e��
�(D��R'/��:G����Is�+�/$$�w��E�4Y�
~J� x�N��/PY��?��|�9��[\��U�e��8��0�H!�J���&�(�����ɬ�����Uϝo��i��)28, [_0^bj����#�N��h�"��
�G��#RrVY6�z���;á�aWʔ�`誁�)��hh��<A�u5�^s�Ki�)oh�<�\���e@SVu�Q"�V4��8�lPX�"�5���L�Ba&����]�+����f��q�A�̦n�l~JÉ���*�Ϛ�Pq���.�2�,�� zx�ڳZ�>�˴*�b_S�^V'm��=�Jb�W�AG�#�8*�ւ���)�n���^��@�X7���4J�����-�%����!C�l��c_LQI�o�!���#��������m�9��(B����x��d�z��$3�Z���,'�Q���v�qCAwt�$��%�4ңe�'E[�@{D��qa a���k��0�	�]G���XM����,�]Na*+_N?BuS8P���oty	q+��hc]�g�� A
�9�aa���A]+�Khu�:�XD����v��3�pTj�=��r�l�-*u�h�F�G��������Xˮ6�
{���KRJa�e��U���r���BQޔÅ�N�J��l�.<���[v�O4>��caU�h�+�wv��b`�JZK/��/�oR�0���<`�%:?���/�OĎ�{l��s_)�k���_H?s�n�U?K!|Җ��0�E�>u�,}�Y�"�fH�mi��mQB��'�)I:��ɤ�(Q���/$q!����S�Ӷ"��Pj��WD=9
�G���v�Q�(�`,Z2[z����dCQOK?�֌t$S���S�n�~�������$�5K�}��P���Q�(w�X�2t�[QJ�b*�+�Vktoϑ�ʓp�*��m?Mx��7����ý '�闆jub�n�`�o�>���A/e�c[�.��%m(U,P��u�a�p!���T�vu1�8��6� ��u�T���&l����g�tPZ߀m�.l쑄��fQ��2$9iQ��d��'Ń�7*�|*�-������T`�� �b�z�D�ˀzN�5�g(��b��S��V�����\�%���*�%<� ��.
x
��&ja���n2���bP��%�Q���{��]7�_vt#T�����`+��$�&��!���: ��,KG-O�GI�&C"Sȑ��=�uJ�<�;�dv:��),���k��,�8jK�]賘4�h���g��6xpsO_�;F�~�n���IB��R��FXe�Y޼�vj6���
4d��FN�@�}������ܛ=j��A��̑<	���$(VP�P��0�=���̚p��i��9�YVIŘ�o�묓�Ȓ�]e*r�z��6Z�sa��yB����N�6�F��M ~c���I�8����Q�5�M�F5�w�Oؘ.�;^{[����@i�Ch2l��vc���YT����`��j\�]rzn��<Ip���s9Hكp��F����DOS��JF ���=�o���XY��Œ�Lh1��f�B����։�.du��V��Г�/�d(�.�XO���z$��� 0�����}�K�ӥ�58�����E�Re����q�"L�������<�Ƙ ��q��[z��R���u�*WdI�C��.����`�DƷ&�sB�K�����K���$>s��� $6�2C�c�w�<JL�](�A'���ڋ��۬���_�I*���NzJ�Y>��S"ZQj��m������0|B����)�/���&��N>(��A�/��Q�d��D}�|���|hY�C�t��]�᧯ d���dn����%�<�:����\mZ͊����.�~��Ok������w��q�2� �Ħ.�X�xÂ�`�'�5Y��}���x�a֧��n��C�^c(����:ֲ^����@��$�ƥ�`��8$v(���|b�q[�+�t*���
y���̯jx$�L0`���V�[�/�2ou+�
��LE�S���5E�t߿�2hmR�]s�n,�B��Y"�������U4��El����{_�&���� �\�p��\4m��t�ڌ�E��`y�׽�R�'��t���f��\Z6<neƁ9�Tխ#����<��E�B*���Z����4y
yJ3Q@���{�Np��s
�n��0�~L